Automated information system of the state real estate cadastre. Thesis: Automated cadastre information systems

Automation of civil and soil inspections. At the beginning of the 21st century, the world community adopted the declaration “On the Informatization of Society,” according to the cat. Every resident has the right to comprehensive information. This information concerns not only the activities of governing bodies, but also transactions with private property assets. By order of Government 363-R the program “Creation of Automation” was adopted. GZK systems" and state accounting of non-income property assets for 2002-2007.” The main goals of this program were:

1) development of normative and methodological documents in the field of land and property relations;

2) differentiation of state private, municipal property of the Russian Federation and constituent entities of the Russian Federation;

3) creation of an automated system for recording property income and training personnel in the field of land management.

In the process of implementing this program, a significant place is given to relations with international projects (TACIS), which were created to achieve specific goals. For example, the creation of modern technological equipment, the development of a normative and methodological basis for maintaining the cadastre. Since April 2004 Work has begun on the reorganization of the Russian cadastre service. The goals and objectives of the automation program have not changed, but issues of shaping the IT market have been added to them. All efforts of Rosnedvizhimost are aimed at meeting the needs of clients in the field of transactions. For this purpose, fundamentally new civil utility systems will be gradually introduced, to which the Russians can connect. and abroad org-tions. Tech. accounting of capital construction objects is carried out on the basis of the OH cadastre. Recently, through the efforts of various specialists, a number of software systems have been created: a single state. register of capital construction projects (EGROKS), software package USRZ "Taganrog - South", PC USRZ "St. Petersburg", Geopolis "Nsk", Geocad "Nsk", cad. office "Ekaterinburg". In addition, there are developments on the formation of land management. affairs and cad. OH assessment. Automation of cadastre maintenance not only reduces consumer problems, but also ensures reliable data protection. Currently At the same time, the program “Creation of a CAD system” was developed. real estate" for 2006-2011. As part of this program, AS GZK and OH accounting were proposed. This system provides automatic reception and issuance of documents, civil documentation and maintenance of directories. The introduction of this system eliminates the separate accounting of ZU and ON, and forms a single state. information a resource for accounting and assessing property assets, eliminates the loss of budget funds by creating a single database and simplifies the procedure for registering transactions with non-income property. Information about HE, including coordinates, will be sent to central authorities electronic. Currently Automation is being introduced in pilot mode. The ON cadastre system is a unified NJ cadastre system (EKON), which is a hierarchical system consisting, like the State Land Land Code, of 3 levels: federations, constituent entities of the Russian Federation and municipalities. levels. The main subsystems of EKON are:

1 .HE Formation:

1.1.Data preparation and technical preparation. tasks for carrying out installation work. works

1.2.Automated processing of devices. and cad.works

1.3.Control of determination of coordinates and calculation of areas

1.4.Identification of restrictions in the use of objects

1.5.Maintaining databases of inter-signs and support boundary network

1.6.Exchange of information with other subsystems

2 .GKU ON, cat. intended for:

2.1.Accounting for basic characteristics and assignments of cad. numbers

2.2.Maintaining DCC (details cad. card) and OH history

3. Cadastral valuation, cat. provides:

3.1.Information economic support zoning of territories and information exchange

4. Formation and accounting of territorial zones:

4.1.Accounting for applications for the formation of territorial zones

4.2.Formation of technical characteristics. assignments at the request of authorities

4.3. Accounting for technical ass and dissemination of information about them

5 .Creating prerequisites for the formation of the real estate market:

5.1. Clarification of regulations for each storage facility

5.2. Concentration of information about OH

6 .Providing information to legal entities and individuals:

6.1.Providing information about OH in the form of passports.

Geodetic support of cadastral works

End of form

25. Design of geodetic condensation networks for the purposes of the state real estate cadastre.

1. Design of the GSS for the purposes of the built-up frame. territory

GSS are intended for thickening geodes. substantiation and bringing of all points to the standard 1p. per 1km 2 for undeveloped. territory and 4p. per 1 km 2 for built-up. territories. GSS are created by the polygon method, in the form of single. moves or system moves with one or several nodes. As ref. use OGS points or polygraph points old. class.Single move of poly(a), from nodes. point (b)

[PICTURE 1]

When the area of the territorial zone<10 км 2 ОГС не создается и 1-ая ступ. ГСС проек-ся в мест. сис-ме коо-т с одним исх. пунктом и 1 или 2исх. дир. углами.

1st stage of GSS only when<10 км 2

Requirements for designing GSS

Stage	Options	4th grade
Design	Limit stroke length (km)
	Number of parties in the course	No more than 15	No more than 15	No more than 15
	Length of sides in course (km)	0.25 – 2.0	0.12 – 0.80	0.08 – 0.30
Measurement	RMS deviation of angle measurements(mβ)
	Preliminary angular discrepancy (fβprev)	√ n	10.0” √ n	√ n
	Accuracy of linear measurements(mb/ B)
Accuracy assessment	Limit discrepancy during polygon (fβ / ΣS)

Features of building a polygon in the city. conditions: 1. When constructing field moves, incomplete angular reference to the original base is possible, due to the loss of visibility of the original. points of OGS 2. In some cases, the required level is increased. measurement accuracy approx. corners 3. It is possible to consolidate the points of the polygraph with wall signs. 4. When constructing a polygraph of a lower level. classes, it is possible to coordinate them with the original. wall signs are higher. class

A) full angular reference

B) One-sided (non-floor) corner binding

B) Coordinate reference

In moves with half

Scheme of transfer of co-t from the ground center of the polygon to the wall sign

Given: X A, Y A, a AB

Measured: b 1, b 2, b 3; S A-1, S A-2, S A-3, S 2-3, S 1-2.

Find X 1 Y 1, X 2 Y 2, X 3 Y 3,

Condition: length of lines from ground. center to the walls. know

The length must not exceed the length of the measuring device.

Solution:1)a a-1 = a А-В +b 1 a а-2 = a А-В +b 1 +b 2 -360 0

a a-3 = a A-B +b 1 +b 2 +b 3 -360 0 2) ∆X A-1 =S A-1 *cos a A-1

∆ Y A-1 =S A-1 *sin a A-1 similarly the rest

3) X 1 =X A +∆X A-1; Y 1 =Y A +∆Y A-1 similar to X 2.3;Y 2.3

4) S 2-3, S 1-2 for control

|S meas1-2 – S cal1-2 |≤3 ms ; |S meas2-3 – S cal2-3 |≤3 m

Geoanalytical system "GeoS" is a multifunctional effective toolkit for recording and analyzing consolidated tabular, text and cartographic business data for solving a wide range of information and analytical tasks with reference to spatial data.

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Test "Automation of the real estate cadastre"

technology for creating an information geoanalytical system;	pp. 3 - 6
implementation of the federal target program “Creation of an automated system for maintaining the state real estate cadastre and state accounting real estate objects";	pp. 7 - 9
composition and structure of the algorithm;	page 10
creating an algorithm using a graphical method (flowchart method) using the example of renting a land plot that is municipally owned;	page 11
services of the Rosreestr portal (design of a land cadastral database for a land plot using the example of a plot with cadastral number 64:48:040221:146);	pp. 12 -13
Bibliography	page 14

1. Technology for creating an information geoanalytical system

Geoportal this is a single point of access to geospatial information Russian Federation. The geoportal provides search, viewing, downloading of metadata, as well as downloading and publishing spatial data and web services in accordance with access rights and the type of license to use materials.

Roscosmos geoportal free mapping serviceFederal Space Agency of Russia, providingsatellite images and maps of the Earth.

Satellite images provided by Roscosmos and NASA , cartographic data OpenStreetMap and Rosreestrom , search tools GeoNames and OpenStreetMap Nominatim . The main sources of data are Russian satellites " Resurs-DK1", "Monitor-E" and "Meteor-M1" " Also on the service you can get acquainted with collections of data from foreign devices in remote sensing data:

Alos, Ikonos, Geoeye, Formosat, SPOT, Quickbird, Rapideye, Terra, Worldview. The launch of information from satellites was planned for 2011. Kanopus-V" and "Resurs-P".

Before the creation of the Geoportal- Russian satellite data was stored in various archives and there was no complete cataloging, which significantly slowed down the execution of requests from space imagery customers. The geoportal was created to solve this problem.

Rice. 1: Saratov region(Roscosmos geoportal)

G Geoanalytical system "GeoS"

Geoanalytical system "GeoS"- multifunctional effective tools for accounting and analysis of consolidated tabular, text and cartographic business data for solving a wide range of information and analytical tasks with reference to spatial data.

Geoanalytical system "GeoS" implementedin the form of a WEB solution on the 1C:Enterprise 8 platform. "GeoS" is installed on a WEB server, which interacts with the GeoServer and ArcGis Server map servers. The System can be accessed through a WEB browser from any workstation connected to the Internet, including mobile devices.

Problems that it solvesgeoanalytical system "GeoS":

management of departmental cartographic material;
interactive placement of location and various additional information about any point objects;
linking to objects, in addition to text indicators, various media information, including photos, videos, broadcasts from a video camera;
filling events into the database, identifying them on the map via mobile devices
monitoring Vehicle enterprises;
collection of any statistical or management indicators of government agencies and enterprises. Visualization and analysis of indicators on thematic maps;
interaction Federal service state registration, cadastre and cartography and bodies for maintaining the land fund of the Russian Federation;
integration with accounting and technological sources of industry data;
management of spatial infrastructure and utility networks

Functions of the geoanalytical system "GeoS":

use of various public backgrounds provided by global mapping services, including: Yandex, open street map, Google, kosmosnimki.ru;
a mechanism for global location search on a map using an informally entered address;
a mechanism for supporting the hierarchy of any system of management indicators that users can create at their own discretion;
providing limited access to third parties.

The advantage of the GeoS geoanalytical system

open service-oriented architecture of geoanalytical system"GeoS" based on web services and standardized interfaces for intersystem interaction allows you to quickly create complex applications of various functional areas for different industries and categories of employees from executive personnel to top management of the company;
the system has wide integration capabilities with other information systems, this is achieved through the following properties:
connecting and setting up new layers is done at the user level in just a few clicks;
the 1C:Enterprise 8 platform provides various methods of intersystem interaction, such as COM, SOAP, XML (Fig. 2)

Rice. 2: Intersystem communicationgeoanalytical system "GeoS"

The software product includes:

basic module "GeoS. Cartography";
module "GeoS. Geoanalysis of target indicators";
module "GeoS. Transport monitoring";
module "GeoS. Cadastral registration".

Creation technologygeoanalytical system "AgroManagement" (on the GeoS platform)

Purpose of creation

performing inventory and monitoring tasks of agricultural and other lands;
agronomic accounting;
organization of operational records of field work using GLONASS/GPS satellite navigation systems.

Subsystems geoanalytical system "AgroManagement" (on the GeoS platform):

geoinformation module;
inventory, land use, planning, data accounting;
interaction with external Earth remote sensing systems, agricultural summary.

Creation technologygeoanalytical system "AgroManagement" (on the GeoS platform):

using the SPOT-5 spacecraft, the ScanEx engineering and technology center conducted high-resolution satellite imagery of the entire Tambov region;
the resulting mosaic of satellite images was used by CenterProgramSystem specialists to create land use maps for all agricultural producers in the Tambov region;
an electronic field map has been created for each land user;
information about each land user is stored in the geoanalytical system "AgroManagement" (on the GeoS platform)and is used to conduct an inventory of agricultural land.

Results of creating the geoanalytical system “AgroManagement” (on the GeoS platform):

prompt receipt of satellite information to assess the condition of crops and the dynamics of biomass growth;
identification of fields where crop development is progressing at a slower pace or, conversely, is advancing;
a database on arable land helps to identify land plots that are not used in agricultural circulation, to clarify the real areas on which each agricultural producer operates;
the information and consulting center of the agro-industrial complex of the Tambov region provides consulting services to agricultural producers, reaching every field in the interests of increasing the productivity of Tambov chernozems;
database on inventory and monitoring of agricultural land use helps in managing agricultural lands to improve economic efficiency region.

Rice. 3: Geoanalytical system "AgroManagement" (on the GeoS platform)

2. Implementation of the Federal Target Program “Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects”

Full name of the program- Federal target program"Creation of an automated system for maintaining the state land cadastre and state registration of real estate objects (2002 - 2008)" (within its framework, subroutine "Information support for real estate management, reform and regulation of land and property relations" and subprogram - "Creation of a real estate cadastre system (2006 - 2011)".

The state customer-coordinator of the program is the Ministry economic development Russian Federation, namely : Federal Real Estate Cadastre Agency And Federal Agency for Federal Property Management.

Purpose of the program:

creation of an automated system for maintaining the state land cadastre and state registration of real estate, ensuring the efficient use of land and other real estate;
involving them in turnover and stimulating investment activities in the real estate market in the interests of meeting the needs of society and citizens;
creation of a state cadastre system that provides guarantees of property rights and other real rights to real estate;
generation of complete and reliable information about real estate objects;
improving public services provided to organizations and citizens;
improvement of services provided to state authorities and local governments.

Expected results of the program:

creation of a scientific and methodological base for the rational use of land and other real estate owned by the Russian Federation, constituent entities of the Russian Federation and municipalities;
creation of an automated system for maintaining the state land cadastre and state registration of real estate objects, which is a set of state databases built on uniform methodological, software and technical principles, containing lists of objects of registration and data about them and subject to registration in the State Register of databases and data banks;
creation of an automated system for real estate management, reform and regulation of land and property relations;
creation of a system for electronic exchange of information between bodies (organizations) for the formation, cadastral registration, technical inventory, assessment, registration of rights to real estate and transactions with it, state and municipal management bodies, tax and other bodies;
making a distinction state property for land and registration of ownership of land plots of the Russian Federation, constituent entities of the Russian Federation and municipalities and entering the received information into automated databases containing up-to-date information about land plots and real estate objects firmly associated with them;
training in the field of real estate management, maintaining the state land cadastre and real estate accounting;
increase in revenue land tax and land rent to budgets of all levels through the implementation of program activities in 2002 - 2007 up to 292.5 billion rubles, including federal budget- 78.9 billion rubles, in order to ensure recoupment of the costs of implementing the program in 2 - 3 years.

Timing of the program(2002 - 2008):

Stage I - 2002 - 2003;
Stage II - 2004 - 2005;
Stage III - 2006 - 2008.

Implementation of the Federal Target Program “Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects” in the Saratov region

In the Saratov region, the program is being implemented through the creation of multifunctional centers for the provision of state and municipal services (MFC).

Multifunctional center for the provision of state and municipal servicesis a government institution that has created maximum conditions to improve the quality of provision of state and municipal services.

Citizens have the opportunity to receive free advice and a range of services from various departments of federal executive authorities, executive authorities of the Saratov region and local governments.

The work of the center is based on"one window" principle", i.e. simplification of the procedure for collecting certificates and documents necessary for receiving a particular service (package of documents) by the applicant in the process of applying to executive authorities for an informed decision when considering documents. As well as transparent and controlled passage of documents at all stages of provision services.

The purpose of the multifunctional center for the provision of state and municipal services iscreation of a new format of relations between the population of the Saratov region and the executive authorities of the Russian Federation.

Conditions of service for applicants at the multifunctional center for the provision of state and municipal services:

Applicants are accepted 6 days a week;
The work schedule provides for the possibility of applying for state and municipal services in the evening until 20:00 and on Saturday until 17:00;
the waiting time in line to submit documents and receive the result of the service is minimal;
All units are accessible to people with limited mobility.

Addresses of multifunctional centers for the provision of state and municipal services in the Saratov region:

50 Let Oktyabrya Avenue, 120 “v”;
Sovetskaya, 9;
Vavilova, 6/14;
Freedom Square, 15 “b” (Engels).

Shortcomings of multifunctional centers for the provision of state and municipal services in the Saratov region:

does not provide Rosreestr services for registration of rights;
there is no interaction with state authorities, local governments and various organizations providing government services(submitted an application and after some appointed time came for the result - a waste of extra citizen time);
not all centers have an electronic queue and an electronic display;
lack of a unified methodology and systematic approach to creating centers;
lack of clear organization of training and certification of center specialists;
insufficient information about work among the population centers.

3.Composition and structure of the algorithm

Algorithm a precise set of instructions describing the course of action to achieve the result of a task.

Ways to present the algorithm:

formulaic-verbal -is based on giving instructions to perform specific actions in a clear sequence in combination with verbal explanations;
algorithmic - a set of rules and notations used to write an algorithm:
mathematical expressions;
text;
function words (full or abbreviated words of the Russian text, located in a certain place in the algorithm, which are necessarily underlined);
graphic (block diagram method) -with this representation of the algorithm, each stage is displayed in the form of geometric blocks, the shape of which depends on the operation being performed, and the line connecting the blocks shows the direction of the data processing process, each direction is called a branch;
tabular method.

4. Creation of an algorithm using a graphical method (flowchart method) using the example of renting a land plot in municipal ownership

drafted by representatives of municipal authorities

list of plots for rent

carried out by representatives of municipal authorities

auction to determine future tenants

No Yes

winning the auction

determination of lease terms for plots,

municipally owned (4 years)

drawing up a lease agreement

No Yes

agreeing on the terms of the lease agreement

between representatives

municipal authorities

and the tenant

Conclusion of a lease agreement between representatives of the municipal

Authorities and tenants

Rice. 4: Algorithm created by graphical method (flowchart method)

5.Services of the Rosreestr portal

Rosreestr ( Federal Service for State Registration, Cadastre and Cartography) - federal bodyexecutive power, performing the functions of organizing a unified system of statecadastral registrationreal estate, state registration of rights to real estate and transactions with it, as well as infrastructurespatial dataRussian Federation.

Rosreestr services:

government services:
government supervision;
cadastral valuation;
other activities.

Design of a land cadastral database for a land plot using the example of a plot with cadastral number 64:48:040221:146

Land cadastral database for a plot with cadastral number 64:48:040221:146:

status - taken into account;
address - Saratov region, Saratov, SNT "Voskhod-85", site No. 24;
specified area - 1,147 sq. m.;
cadastral value - 1,740,549 rubles. 56 kopecks;
date of registration - June 22, 2011;
quarter - 64:48:040221;
district - 64:48;
district - 64;
date of update of site attributes on the PPK - 08/19/2014;
date of updating the boundaries of the site on the PPK - 06/04/2013;
category land of settlements (land of settlements);
permitted use:
by classifier (code) 141004000000;
according to the classifier (description) for gardening and horticulture by citizens;
according to document for gardening;
serves - managementFederal Service for State Registration, Cadastre and Cartography:
Saratov department (410009, Saratov, 50 Let Oktyabrya Ave., 34/56, t.: (845-2) 55-33-78);
Saratov department (410009, Saratov, st. Tractornaya, 43, t.: (845-2) 55-04-30).

Rice. 5: Land plot 64:48:040221:146 (Public cadastral map)

Rice. 6: Land plot 64:48:040221:146 (Public cadastral map)

Bibliography:

FTP " Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects»;
Varlamov. A. A. Land cadastre. In 6 vols. T. 1: Theoretical basis State Land Cadastre / A. A. Varlamov. - M.: - Publisher: KolosS, 2007. - 383 p. - ISBN 5-9532-0102-8;
Varlamov. A. A. Land cadastre. In 6 vols. T. 1: Land management / A. A. Varlamov. - M.: - Publisher: KolosS, 2005. - 528 p. - ISBN 5-9532-0143-5.

PAGE \* MERGEFORMAT 2

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"Automation of the real estate cadastre"

1. Technology for creating an information geoanalytical system; implementation of the Federal Target Program “Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects”;

2. Composition and structure of the algorithm; creating an algorithm using a graphical method (flowchart method) using the example of renting a land plot that is municipally owned;

3. Services of the Rosreestr portal (design of a land cadastral database for a land plot using the example of a plot with cadastral number 64:48:040221:146);

1. Technology for creating an information geoanalytical system

The geoportal is a single point of access to geospatial information of the Russian Federation. The geoportal provides search, viewing, downloading of metadata, as well as downloading and publishing spatial data and web services in accordance with access rights and the type of license to use materials.

Roscosmos geoportal is a free mapping service of the Russian Federal Space Agency, providing satellite images and maps of the Earth.

Satellite images provided by Roscosmos and NASA, cartographic data by OpenStreetMap and Rosreestr, search tools by GeoNames and OpenStreetMap Nominatim. The main sources of data are the Russian satellites Resurs-DK1, Monitor-E and Meteor-M1. Also on the service you can get acquainted with collections of data from foreign devices in remote sensing data:

Alos, Ikonos, Geoeye, Formosat, SPOT, Quickbird, Rapideye, Terra, Worldview. The launch of information from the Kanopus-V and Resurs-P satellites was planned for 2011.

Before the creation of the Geoportal, Russian satellite data was stored in various archives and there was no complete cataloging, which significantly slowed down the execution of requests from space imagery customers. The geoportal was created to solve this problem.

Rice. 1: Saratov region (Roscosmos geoportal)

Geoanalytical system "GeoS"

The GeoS geoanalytical system is implemented as a WEB solution on the 1C:Enterprise 8 platform. "GeoS" is installed on a WEB server, which interacts with the GeoServer and ArcGis Server map servers. The System can be accessed through a WEB browser from any workstation connected to the Internet, including mobile devices.

The tasks that the GeoS geoanalytical system solves:

1. management of the department’s cartographic material;

2. interactive placement of location and various additional information about any point objects;

3. linking to objects, in addition to text indicators, various media information, including photos, videos, broadcasts from a video camera;

4. filling events into the database, identifying them on the map via mobile devices

5. monitoring of enterprise vehicles;

6. collection of any statistical or management indicators of government agencies and enterprises. Visualization and analysis of indicators on thematic maps;

7. interaction with the Federal Service for State Registration, Cadastre and Cartography and authorities for maintaining the land fund of the Russian Federation;

8. integration with accounting and technological sources of industry data;

9. management of spatial infrastructure and utility networks

Functions of the geoanalytical system "GeoS":

1. use of various public substrates provided by global mapping services, including: Yandex, open street map, google, kosmosnimki.ru;

2. a mechanism for global location search on a map using an informally entered address;

3. a mechanism for supporting the hierarchy of any system of management indicators that users can create at their own discretion;

4. Providing limited access for third parties.

The advantage of the GeoS geoanalytical system

1. the open service-oriented architecture of the geoanalytical system "GeoS" based on web services and standardized interfaces for intersystem interaction allows you to quickly create complex applications of various functional areas for different industries and categories of employees - from executive personnel to top management of the company;

2. the system has wide integration capabilities with other information systems, this is achieved through the following properties:

a) connecting and setting up new layers is done at the user level in just a few clicks;

b) the 1C:Enterprise 8 platform provides various methods of intersystem interaction, such as COM, SOAP, XML (Fig. 2)

Rice. 2: Intersystem interaction of the geoanalytical system "GeoS"

The software product includes:

1. basic module “GeoS. Cartography";

2. module “GeoS. Geoanalysis of target indicators";

3. module “GeoS. Transport monitoring";

4. module “GeoS. Cadastral registration".

Technology for creating the geoanalytical system "AgroManagement" (on the GeoS platform)

The purpose of creating the geoanalytical system “AgroManagement” (on the GeoS platform):

1. performing the tasks of inventory and monitoring of agricultural and other lands;

2. agronomic accounting;

3. organization of operational records of field work using GLONASS/GPS satellite navigation systems.

Subsystems of the geoanalytical system "AgroManagement" (on the GeoS platform):

1. geoinformation module;

2. inventory, land use, planning, data recording;

3. interaction with external Earth remote sensing systems, agricultural report.

Technology for creating the geoanalytical system “AgroManagement” (on the GeoS platform):

1. Using the SPOT-5 spacecraft, the ScanEx engineering and technology center conducted high-resolution satellite imagery of the entire Tambov region;

2. the resulting mosaic of satellite images was used by CenterProgramSystem specialists to create land use maps for all agricultural producers in the Tambov region;

3. an electronic field map has been created for each land user;

4. information about each land user is stored in the geoanalytical system “AgroManagement” (on the GeoS platform) and is used to conduct an inventory of agricultural land.

Results of creating the geoanalytical system “AgroManagement” (on the GeoS platform):

1. prompt receipt of satellite information to assess the condition of crops and the dynamics of biomass growth;

2. identification of fields in which the development of crops is progressing at a reduced rate or, on the contrary, is advancing;

3. a database on arable land helps to identify land plots that are not used in agricultural circulation, to clarify the real areas on which each agricultural producer operates;

4. the information and consultation center of the agro-industrial complex of the Tambov region provides consulting services to agricultural producers, reaching every field in the interests of increasing the productivity of Tambov chernozems;

5. A database for inventory and monitoring of agricultural land use helps in managing agricultural lands to improve the economic efficiency of the region.

Rice. 3: Geoanalytical system “AgroManagement” (on the GeoS platform)

2. Implementation of the Federal Target Program “Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects”

The full name of the program is the Federal Target Program "Creation of an automated system for maintaining the state land cadastre and state registration of real estate (2002 - 2008)" (within its framework the subprogram "Information support for real estate management, reform and regulation of land and property relations" and the subprogram - "Creation of a real estate cadastre system (2006 - 2011)".

The state customer-coordinator of the program is the Ministry of Economic Development of the Russian Federation, namely: the Federal Agency for Real Estate Cadastre and the Federal Agency for Federal Property Management.

Purpose of the program:

1. creation of an automated system for maintaining the state land cadastre and state registration of real estate, ensuring the efficient use of land and other real estate;

2. involving them in turnover and stimulating investment activity in the real estate market in the interests of meeting the needs of society and citizens;

3. creation of a state cadastre system that provides guarantees of ownership and other proprietary rights to real estate;

4. generation of complete and reliable information about real estate objects;

5. improvement of public services provided to organizations and citizens;

6. improvement of services provided to state authorities and local governments.

Expected results of the program:

1. creation of a scientific and methodological base for the rational use of land and other real estate owned by the Russian Federation, constituent entities of the Russian Federation and municipalities;

2. creation of an automated system for maintaining the state land cadastre and state registration of real estate objects, which is a set of state databases built on uniform methodological, software and technical principles, containing lists of objects of registration and data about them and subject to registration in the State Register of databases and data banks;

3. creation of an automated system for real estate management, reform and regulation of land and property relations;

4. creation of a system for electronic exchange of information between bodies (organizations) for the formation, cadastral registration, technical inventory, assessment, registration of rights to real estate and transactions with it, state and municipal management bodies, tax and other bodies;

5. delineating state ownership of land and registering ownership of land plots of the Russian Federation, constituent entities of the Russian Federation and municipalities and entering the received information into automated databases containing up-to-date information about land plots and real estate objects firmly associated with them;

6. training in the field of real estate management, maintaining the state land cadastre and real estate accounting;

7. increase in revenues from land tax and land rent to budgets of all levels through the implementation of program activities in 2002 - 2007 to 292.5 billion rubles, including to the federal budget - 78.9 billion rubles, in order to ensure cost recovery for the implementation of the program in 2 - 3 years.

Program implementation period (2002 - 2008):

1. Stage I - 2002 - 2003;

2. Stage II - 2004 - 2005;

3. Stage III - 2006 - 2008.

Implementation of the Federal Target Program “Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects” in the Saratov region

In the Saratov region, the program is being implemented through the creation of multifunctional centers for the provision of state and municipal services (MFC).

A multifunctional center for the provision of state and municipal services is a state institution in which maximum conditions have been created to improve the quality of provision of state and municipal services.

The center’s work is based on the “one-window” principle, i.e. simplification of the procedure for collecting certificates and documents necessary for the applicant to receive a particular service (package of documents) in the process of applying to executive authorities for an informed decision when reviewing documents. As well as transparent and controlled passage of documents at all stages of service provision.

The goal of the multifunctional center for the provision of state and municipal services is to create a new format of relations between the population of the Saratov region and the executive authorities of the Russian Federation.

Conditions of service for applicants at the multifunctional center for the provision of state and municipal services:

1. Applicants are accepted 6 days a week;

2. The work schedule provides for the possibility of applying for state and municipal services in the evening until 20:00 and on Saturday until 17:00;

3. the waiting time in line to submit documents and receive the result of the service is minimal;

4. all units are accessible to people with limited mobility.

Addresses of multifunctional centers for the provision of state and municipal services in the Saratov region:

2. Sovetskaya, 9;

3. Vavilova, 6/14;

4. Freedom Square, 15 “b” (Engels).

Shortcomings of multifunctional centers for the provision of state and municipal services in the Saratov region:

1. does not provide Rosreestr services for registration of rights;

2. interaction with state authorities, local governments and various organizations providing public services has not been established (submitted an application and after some appointed time came for the result - a waste of the citizen’s extra time);

3. not all centers have an electronic queue and an electronic display;

4. lack of a unified methodology and systematic approach to creating centers;

5. lack of a clear organization of training and certification of center specialists;

6. insufficient information to the population about the work of the centers.

3. Composition and structure of the algorithm

An algorithm is a precise set of instructions that describes the order of actions to achieve the result of a task.

Ways to present the algorithm:

1. formulaic-verbal - based on giving instructions on performing specific actions in a clear sequence in combination with verbal explanations;

2. algorithmic - a set of rules and notations used to write an algorithm:

a) mathematical expressions;

c) function words (full or abbreviated words of the Russian text, located in a certain place in the algorithm, which are necessarily underlined);

3. graphic (flowchart method) - with this representation of the algorithm, each stage is displayed in the form of geometric blocks, the shape of which depends on the operation being performed, and the line connecting the blocks shows the direction of the data processing process, each direction is called a branch;

4. tabular method.

4. Creation of an algorithm using a graphical method (flowchart method) using the example of renting a land plot in municipal ownership

Rice. 4: Algorithm created by graphical method (flowchart method)

5. Services of the Rosreestr portal

Rosreestr (Federal Service for State Registration, Cadastre and Cartography) is a federal executive body that carries out the functions of organizing a unified system of state cadastral registration of real estate, state registration of rights to real estate and transactions with it, as well as the spatial data infrastructure of the Russian Federation.

Rosreestr services:

1. public services:

2. state supervision;

3. cadastral valuation;

4. other activities.

Design of a land cadastral database for a land plot using the example of a plot with cadastral number 64:48:040221:146

Land cadastral database for a plot with cadastral number 64:48:040221:146:

1. status - taken into account;

2. address - Saratov region, Saratov, SNT "Voskhod-85", site No. 24;

3. specified area - 1,147 sq. m.;

4. cadastral value - 1,740,549 rubles. 56 kopecks;

5. date of registration - June 22, 2011;

6th quarter - 64:48:040221;

7. region - 64:48;

8. district - 64;

9. date of updating the site attributes on the PPK - 08/19/2014;

10. Date of updating the boundaries of the site on the PPK - 06/04/2013;

12. permitted use:

a) by classifier (code) - 141004000000;

b) according to the classifier (description) - for gardening and horticulture by citizens;

c) according to the document - for gardening;

13. serves - the department of the Federal Service for State Registration, Cadastre and Cartography:

b) Saratov department (410009, Saratov, Traktornaya str., 43, t.: (845-2) 55-04-30).

Rice. 5: Land plot 64:48:040221:146 (Public cadastral map)

Rice. 6: Land plot 64:48:040221:146 (Public cadastral map)

geoanalytical automated cadastre algorithm

Bibliography

1. Federal Target Program “Creation of an automated system for maintaining the state real estate cadastre and state registration of real estate objects”;

2. Varlamov. A.A. Land Registry. In 6 vols. T. 1: Theoretical foundations of the state land cadastre / A. A. Varlamov. - M.: - Publisher: KolosS, 2007. - 383 p. - ISBN 5-9532-0102-8;

3. Varlamov. A.A. Land Registry. In 6 vols. T. 1: Land management / A.A. Varlamov. - M.: - Publisher: KolosS, 2005. - 528 p. - ISBN 5-9532-0143-5.

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Introduction.

Economically developed countries The cadastre of lands and other real estate has gone through stages of formation and development over the past 200-400 years. Currently, these states have a legally complete, institutionalized instrument for accounting and taxation, which is a critical component of the economic and social stability of the state.

Taking into account modern technical capabilities for collecting, processing, storing and issuing data on the cadastre, its growing importance, changes taking place in the social reorganization of Russia, the experience of leading European countries, USA and Canada, it is advisable to form a modern approach to the structure of cadastres in Russia, and the urban cadastre in particular, to resolve the legal and legal issues of creating, maintaining and monitoring the cadastre. This applies not only to individual types of cadastre, but also to the system of the State Cadastre of Russia, for the successful implementation of which it is necessary to prepare and adopt relevant legislative, regulatory and technical acts and develop standards for terms and definitions as quickly as possible.

The final product when maintaining state cadastres should be banks of cadastral information. Users of information stored in such data banks can be territorial authorities, administrations of cities, regions, territories, republics within the Russian Federation and Federal authorities management.

In order for the capabilities of data banks to be effectively used by government authorities, three conditions must be met.

1. Any cadastral data bank must contain reliable and complete information about cadastres.

2. Access of interested services to cadastral information stored in data banks must be instantaneous, which is achievable thanks to terminal communication between data banks and the relevant services.

3. The formats and classifiers of data banks of all objects of cadastral information must be uniform.

Currently, there is an unsatisfactory situation in the field of accounting of natural and municipal objects, which leads to significant economic losses, a decrease in federal and local budgets and other negative results. State cadastres created in the context of sectoral economic management are distinguished by departmental disunity and incompatibility of the information they contain, and therefore cannot serve for a comprehensive assessment of objects and resources.

The Unified System of State Cadastres (USGK) should be an interconnected complex of territorially distributed state cadastres maintained on a single geographic information basis and in accordance with certain legal, technological and economic standards.

Part Unified system State cadastres should include the following main groups of state cadastres:

Inventories of natural resources (land, water, mineral deposits, environmental, flora and fauna, etc.);

Real estate cadastres (engineering networks and communications, residential and non-residential buildings, transport highways, road networks, etc.);

Registers (population, enterprises, administrative-territorial entities).

The creation and maintenance of all types of cadastre remains one of the most important problems of territorial management at the present stage. Inventory data are necessary for information support of economic activities in regions and cities, environmental monitoring and rational use of natural resources.

Chapter I. General provisions.

The level and volume of information currently available about urban life are so great that its processing, analysis and understanding are no longer possible without modern hardware and software. Therefore, it becomes extremely necessary to create an automated system for the city cadastre based on modern computer technologies and telecommunications as a single complex to obtain complete information about the surrounding world, available resources, opportunities and the consequences that our activities have on the world. Since the cadastre operates with spatially referenced data and information, the relationship between its automation and GIS issues is obvious. But here it should be remembered that, as with the creation of any automated system, the task is divided into the development of separate types of support: organizational, technical, software, information and, including cartographic. In this case, it is mandatory that the mapping system be compatible with other components.

Solving cadastre problems at the modern level requires not only the use of modern software, but also deep technological elaboration of information system projects.

The set of functional components of cadastral information systems should contain an effective and fast interface, automated data entry tools, a database management system adapted to solve relevant problems, a wide range of analysis tools, as well as tools for generating images, visualizing and outputting cartographic documents.

When choosing software products, a necessary condition is to ensure stable connections with various systems through file standards for the exchange of geometric and thematic data. Taking into account the factor of constant modernization of hardware of information systems and modification of software, a necessary condition for the functioning of systems is to ensure the safety and portability of data to new software and hardware environments.

Technological problems of ensuring the operation of cadastral information systems include the design of a mathematical basis electronic cards, designing a digital terrain model, tasks of converting data into digital form, geometric modeling of spatial information, problem modeling of thematic data, etc.

The greatest interest is generated by new GIS technologies that provide efficiency, completeness and reliability of information both about the existing state of the urban environment within a particular city territory, and about proposed measures to change it during development and reconstruction.

Currently, literary, statistical, cartographic, aero- and space materials are traditionally used. As a rule, their selection and systematization for subsequent use is carried out manually. This path is well known. Another direction that is actively developing is related to geoinformatics, which makes it possible to formalize and implement in a computer environment a significant part of the routine operations of accumulation, storage, processing and use of spatially coordinate data using geographic information systems (GIS).

According to A. M. Berlyant: “Today geoinformatics appears as a system covering science, technology and production... Geoinformatics- a scientific discipline that studies natural and socio-economic geosystems (their structure, connections, dynamics, functioning in space-time) through computer modeling based on databases and geographical knowledge. On the other hand, geoinformatics is a technology (GIS - technology) of collecting, storing, transforming, displaying and distributing spatially coordinate information, aimed at providing solutions to problems of inventory, optimization, management of geosystems... Finally, geoinformatics, as production (or geoinformation industry) is the production of hardware and software products, including the creation of databases and data banks, control systems, standard (commercial) GIS for various purposes and problem orientation.” Let us add that the “geographic information industry” includes a variety of applications of GIS technologies implemented in standard commercial software products, i.e., design, creation (development) and operation of GIS as part of the implementation of territorial, problem- and subject-specific geoinformation projects.

Map- one of the most important sources of mass data for the formation of the positional and content part of GIS databases in the form digital cards- foundations that form a single basis for positioning objects, and a set of thematic data layers, the totality of which forms the general information basis of the GIS. The layer-by-layer representation of spatial objects has direct analogies with the element-by-element division of the thematic and general geographical content of maps.

Many procedures for processing and analyzing data in GIS are based on methodological apparatus previously developed in the depths of certain branches of cartography. These include operations of transformation of cartographic projections and other operations on an ellipsoid, based on the theory and practice of mathematical cartography and the theory of map projections, operations of computational mathematics, allowing the calculation of areas, perimeters, indicators of the shapes of geometric objects, which have no analogues in cartography and morphometry.

In most GIS, one of the main elements is the data visualization block, where graphical and cartographic constructions play an important role. The GIS cartographic module provides a cartographic representation of source, derived or resulting data in the form of digital, computer and electronic (video screen) maps, being an element of the user interface and a means of documenting the final results. High-quality cartographic graphics that imitate traditional cartographic language and cartographic display methods (and some features that can only be implemented by computer means, for example, cartoon and animation capabilities) with the support of a variety of display devices are among the must-have features of GIS software.

However, the tasks of GIS go far beyond cartography, making them the basis for the integration of specific geographical and other (geological, soil, economic, etc.) sciences in complex systemic geoscientific research.

The methodological apparatus of geographic information technologies is directly or indirectly connected with various areas of applied mathematics (computational geometry, analytical and differential geometry, from which algorithmic solutions of many analytical operations are borrowed technological scheme GIS), with machine graphics (in particular, machine implementation of visualization and cartographic capabilities of GIS), pattern recognition, scene analysis, digital filtering, and automatic classification in the digital image processing unit of raster GIS, geodesy and topography (for example, in topographic data processing modules) geodetic surveys using traditional methods or using global navigation systems GPS).

The development of geoinformatics as a professional production activity led to the diversification of the previously unified specialty “geoinformatics” with the identification of individual professions and specializations:

GIS - managers(general and systemic management of GIS and its information support);

developers(system analysts who ensure the translation of the customer’s information needs into terms of the information model, programmers and designers as intermediaries between analysts and programmers);

users(“broad profile” and with a narrow subject specialization).

Control questions:

The relationship between GIS issues and solving cadastre problems.

Concept of geoinformatics.

Digital map as a GIS element.

Areas of activity of specialists in the field of GIS.

Chapter 2. The concept of geographic information systems.

2.1. Structure and classification.

Mandatory elements of a more or less complete definition of GIS should be considered an indication of “spatiality”, operational and functional capabilities and application orientation of systems.

It was believed, bearing in mind GIS of a professional-geographical orientation, that spatiality is a necessary condition for qualifying some information system as geographical (for example, automated radio navigation systems, although they operate with spatially defined data, are considered geographical information systems do not belong). The content of the collected data cannot serve as a basis for distinguishing “geographic” from “non-geographic” information systems: databases identical in content can serve completely different (including purely geographical and clearly non-geographic) applications. On the contrary, systems with different purposes are forced to accumulate the same information. For example, a database with a digital representation of the relief is used for automated drawing of isohypses on a topographic map (topographic cartography), calculation and mapping of morphometric indicators (geomorphology and thematic cartography), search for optimal routes of highways or other communications ( engineering survey and design).

One of the varieties of GIS are systems based on remote sensing materials, combining the functionality of geographic information technologies with developed functions for processing remote images, the so-called integral (integrated) GIS.

The minimum set of criteria that allows identifying each specific geographic information system forms a “coordinate system” of three-dimensional space, the axes of which are: territorial coverage and the functionally associated scale (or spatial resolution), the subject area of information modeling and problem orientation.

With all the variety of operations, goals, areas of information modeling, problem orientation and other attributes characteristic of created and operating GIS, logically and organizationally, several building blocks can be distinguished in them, also called modules or subsystems, performing more or less clearly defined functions. The functions of GIS, in turn, stem from four types of problems it solves:

As for the GIS classification, several directions have also emerged here. For example, classification according to their problem orientation:

Engineering;

Property (GIS for real estate accounting), intended for processing cadastral data;

GIS for thematic and statistical mapping aimed at natural resource management, census mapping and environmental planning;

Bibliographic, containing cataloged information about a variety of geographical documents;

Geographic files with data on functional and administrative boundaries;

Image processing systems from Landsat, etc.

However, the rapid variability and multiplicity of options for problems to be solved requires the introduction of other classifications that take into account the structure and architecture of GIS. A 3-component classification of GIS has been developed and presented according to the following criteria:

1) the nature of the problem-processor model;

2) the structure of the database model;

3) features of the interface model.

At the top level of classification, all information systems are divided into spatial and non-spatial. GIS, naturally, belongs to the spatial category, dividing into thematic (for example, socio-economic) and land (cadastral, forestry, inventory, etc.). There is a division by territorial coverage (national and regional GIS); by purpose (multi-purpose, specialized, including information and reference, inventory, for planning and management needs); by thematic orientation (general geographic, sectoral, including water resources, land use, forestry, tourism, recreation, etc.).

2.2. Data sources and types

Among the data sources widely used in geoinformatics, cartographic, statistical and aerospace materials are most often used. In addition to these materials, data from specially conducted field research and surveys, as well as text sources, are much less often used. An important feature of the data used is in what digital or non-digital (analog) form a particular type of data is obtained, stored and used, which determines the ease, cost and accuracy of entering this data into the digital GIS environment.

The use of geographic maps as sources of initial data for the formation of thematic database structures is convenient and effective for a number of reasons. Information read from cards has the following advantages:

have a clear territorial reference,

there are no gaps, “white spots” within the depicted territory,

they can be recorded on computer storage media in any form.

Cartographic sources are very diverse; in addition to general geographic and topographic maps, there are dozens and even hundreds of types of different thematic maps.

It should be noted the special role of series of maps and complex atlases, where information is presented in a uniform, systematized, mutually agreed upon form; by projection, scale, degree of generalization, modernity, reliability and other parameters. Such sets of maps are especially convenient for creating thematic databases. An excellent example is the 3D Ocean Atlas, which contains detailed information about natural conditions, physical and chemical parameters, biological resources of the World Ocean, presented on a series of maps of different subjects, different time and different height (depth) sections.

One of the main sources of data for GIS is remote sensing materials. They combine all types of data received from space-based carriers (manned orbital stations, shuttle-type reusable spacecraft, autonomous satellite imaging systems, etc.) and aviation-based carriers (airplanes, helicopters and micro-aviation radio-controlled vehicles) and constitute a significant part of remote remotely sensed data as an antonym to contact (primarily ground-based) types of surveys, methods of obtaining data by measuring systems under conditions of physical contact with survey objects. Non-contact (remote) survey methods, in addition to aerospace ones, include a variety of sea-based (surface) and ground-based measuring systems, including, for example, phototheodolite survey, seismic, electromagnetic prospecting and other methods of geophysical sounding of the subsoil, hydroacoustic surveys of the seabed topography using side-scan sonars, other methods based on recording one’s own or reflected signal of a wave nature.

Aerial photography materials are used mainly for topographic mapping, and are also widely used in geology, in forestry, during land inventory. Space images began to arrive in the 60s, and to date their stock amounts to tens of millions.

In recent years, portable receivers of data on the coordinates of objects from the global navigation system (positioned) GPS have been widely used in the GIS environment, making it possible to obtain plan and altitude coordinates with an accuracy of several meters to several millimeters, which in combination with portable personal computers and specialized software processing data from the GPS system makes it possible to use them for field surveys in conditions where they need to be carried out super-quickly (for example, when eliminating the consequences of natural and man-made disasters).

Turning to statistical materials in digital form, we can say that they are convenient for direct use in GIS, among which state statistics occupies a special place. Its main purpose is to give an idea of changes in national economy, the composition of the population, its standard of living, the development of culture, real estate accounting, the presence of material reserves and their use, the relationship in the development of various sectors of the economy, etc.

To obtain government statistics on the territory of the country, a unified methodology for collecting it is usually used. In Russia, in addition to the State Statistics Committee of the country, this work is also carried out by some line ministries, for example, the Ministry of Railway Transport, etc. Statistical reporting varies in frequency; it can be daily, weekly, semi-monthly, quarterly, semi-annual and annual. In addition, reporting can be one-time.

To organize the entire collection of data public service indicators for branches of statistics have been determined. The following branches of statistics were used as such groups in our country:

1) industry;

2) natural resources and environment;

3) technical progress;

4) Agriculture and blanks;

5) capital construction;

6) transport and communications;

7) trade;

8) labor and wages;

9) population, health care and social security;

10) public education, science and culture, etc.

Specialized geographic information system ABRIS-Cadastr

Geographic information systems are today an important tool for collecting and planning geographic objects. GIS existing in the world today can be quite clearly divided into three main categories:

Powerful, full-featured GIS based on workstations on UNIX systems and RISC processors.

GIS of average power (or GIS with reduced capabilities) of the MAPINFO class on a PC platform.

Programs built on the GIS principle and with little need for computer resources.

The latter are usually more highly specialized, focused on a specific market of work. Such systems include ABRIS-Cadastr. This system is focused on processing land inventory data. Thanks to it, you can, by entering information, quickly receive all the necessary reference data in the established form.

GIS ABRIS-Cadastr is one of the GIS of the ABRIS family, developed at the Moscow University of Geodesy and Cartography since 1993.

This system serves the purposes of the land cadastre. It allows you to enter cartographic information taken using a digitizer or from files received by GPS receivers. Based on the information, you can keep operational records of land and compare accounting data and measurement results, receive documents in the form of printouts (statements of area calculations, comparative statements of occupied lands based on accounting data and measurement results, statements of calculated areas, explication of lands, plans of various scales and etc.). It is possible to edit and change both graphic and attribute information. This allows you to always have updated data.

In general, ABRIS-Cadastr allows you to quickly and conveniently automate work in the field of land cadastre and store land cadastre data in electronic form.

Control questions:

Functions and components of a geographic information system.

GIS classification.

Types of data for GIS.

Automation mainly affected processes that required large computational and time resources, as well as many of the rough jobs that had to be done in cartography previously. However, all these processes share one property - clear algorithmization.

This is precisely what does not allow, and most likely will not allow in the coming years, to solve many of the most important problems of digital cartography. First of all, this concerns the automatic reading of information, the generalization process, and some other issues. Those. all those tasks for which we cannot describe a clear sequence of elementary steps that led to the solution, and use our own subjective feelings. Success in automating these tasks depends on advances in pattern recognition and artificial intelligence.

Although, of course, research is constantly being carried out to create more advanced algorithms and new technical means that can shoulder a greater burden of problems associated with human intellectual activity, the solution to these problems is still far away.

Automation tools in digital cartography can be divided into two groups: hardware and software.

Hardware includes all equipment used at various stages of the map production cycle. These are computers, scanners, digitizers, plotters, printers, video terminals and various specialized devices for performing certain narrow tasks (color dividers, phototypesetting machines, etc.).

However, there is a tendency to replace specialized devices with appropriate software. Digital cartography is becoming more and more digital.

The advantage of hardware over software is that they sometimes perform their functions much faster, but they are expensive, and as the power of the computer increases, the difference in speed disappears. Apparently, the only specialized devices that will never disappear, besides the computer itself, which ensures the functioning of software, will be input-output devices, without which dialogue between a person and a machine is impossible. Nowadays, devices that automate input are scanners, photo and TV input devices, which allow you to quickly enter images in raster form into a computer: digitizers of various designs and automatic trackers used to enter initial graphic information in vector form.

Devices for inputting raster information compare favorably with others in that they allow you to quickly and accurately transfer graphic images to a computer and immediately abandon paper technology in the future. At the same time, a high degree of automation is achieved: modern industrial scanners require minimal human intervention in the operating process thanks to automatic material feeding, configuration, digital filtering, compression and information transmission.

An important feature of this method is that the input data is simply a description of the graphic image of the map without indicating the semantic meaning of each element of the image. The objects that we see on the map are not in the image in raster format. They exist only in our consciousness, which interprets groups of pixels, linking them into some kind of holistic object. In reality, there is no such connection in raster data; all pixels are equivalent to each other and differ only in color or brightness. Therefore, the machine cannot directly interpret the bitmap image. That is why such data must be converted into vector format for further processing. But the disadvantage of this method is that the converted information has not yet been processed in any way in terms of content, has a small number of semantic attributes and requires further recognition and many processing operations.

On the contrary, devices for entering information in vector form allow, simultaneously with input, to carry out all the necessary operations to identify objects and their digitization. Moreover, the data is transferred to the computer practically in the same form in which it will be stored as a central capital, and therefore requires minimal further processing.

Despite its apparent advantage, this method has its drawback: it requires a large amount of human labor and is less amenable to automation due to the presence of a larger number of electromechanical components. Let us at least compare the complexity of creating a program - an automatic line tracker and a device pursuing the same goal.

Despite all the cumbersomeness of the equipment for entering information in vector form, its high cost, low productivity and significant human participation in the work process, the method of entering information in raster form with subsequent automatic processing and conversion into vector format has also not yet received proper distribution due to its complexity creating programs capable of automatically recognizing and converting graphic information. Therefore, at present, there are both methods for initially entering graphic information into a computer. Although, analyzing the development modern science and technology, preference should be given to raster image input devices. Moreover, at the moment, a hybrid method of entering cartographic information into a computer, using precisely these devices, is actively developing. It involves converting an image on physical media into raster form and then recording the digital code on machine media. After this, the image is vectorized in a manner similar to that used when working with a digitizer, in manual, semi- and automatic mode. The image is monitored on the screen of the video terminal. At the same time, the advantages provided by both methods described above are achieved, and at the same time their disadvantages are partially compensated: the bulkiness of the equipment and its total cost are reduced, the transition to “paperless” technology is carried out, the possibility of automating processes increases, and the accuracy and productivity of labor increases.

Devices that automate the output of information include graphic video terminals, matrix, inkjet and laser printers, plotters (plotters). All of them are used in different cases.

For fast dynamic display of cartographic information without its further storage and with high visual ability, all kinds of graphic video terminals are used. To quickly produce hard copies of cards, depending on the requirements for quality, speed and media material, different types of printers are used. And to obtain high-quality materials for long-term use, plotters are used.

As computers used in modern digital cartography, there have been attempts to use all the most well-known types of computers and hardware platforms. Often, automated complexes use both personal computers and workstations connected in a LAN (local area network) and having access to a mainframe, which carries out centralized storage and processing of information.

The software that controls all devices and performs numerous operations for collecting, storing and processing cartographic information is constantly being improved. Automation in digital cartography depends to the greatest extent on what software is developed and used on the this moment. Considering that in recent years there has been a tendency to use standard computer equipment rather than specialized cartographic equipment in digital cartography, it is clear that all special functions fall on software and its role in automating cartography has reached almost 100 percent.

Modern software allows pre-processing of the input image to improve its quality, automates the process of converting it into the CC form, and manages complex cartographic data bases that represent a huge amount of information.

This software puts powerful analytical capabilities into the hands of users for spatial analysis of information. There are application packages that allow you to simulate various processes in the natural environment (for example, relief-forming) and use modeling data in mapping phenomena.

The importance of software systems used in the production of maps is great. Color separation, calculation of various projections and automatic selection of the best terrain for a given area, selection of the optimal sheet layout and design - this is not a complete list of operations performed by software in our time and raising production technology to a qualitatively different level.

Therefore, today we can clearly see the increasing role of the human cartographer in automated systems, where his work is used to solve some fundamental issues, and routine operations are entrusted to technology.

Control questions:

1. Conduct an analysis of the current state of the automation process when creating a digital topographic basis for automated information systems of the state real estate cadastre.

It is now widely understood that GIS is not a class or type of software system, but a group of technologies, the underlying technology (“umbrella technology”) for many computer methods and programs related to working with spatial data.

GIS has close relationships (some of it genetic) with many types of software tools. On the one hand, these are graphical CAD tools, vector graphic editors, and on the other, relational DBMSs.

This circumstance explains why, along with completely independent systems, there are GIS based on these tools. Vivid examples are MGE, INTERGRAPH Corporation, which uses the MicroStation graphic editor and a DBMS such as Oracle and ArcCAD (ESRI, Inc.), created on the basis of AutoCAD and an external DBMS compatible with dBASE.

The modern market offers GIS for almost all computer platforms. In 1993, the number of GIS packages offered was approximately 400, with base prices ranging from $50 to $250,000. Mostly prices range from $400 to $60,000. Of course, most of them offer specialized systems developed by small firms. Really in the market of full-featured GIS (full GIS) general purpose serious players not so many - no more than 20. Most GIS software is developed by specialized companies, only in some cases these are products of large companies for which GIS is not the main product (Intergraph, IBM, Computervision, Westinghouse Electric Corp., McDonnel Douglas, Siemens Nixdorf ). In terms of the number of installations and the number of known packages, PCs (MS-DOS, MS Windows) and UNIX workstations dominate.

Of course, the distribution area for full-featured general-purpose GIS in the world today is almost exclusively UNIX workstations. Mostly systems with reduced capabilities (PC ARC/INFO) or not even “full GIS”, but products of the “desktop mapping” class (a typical example is MapInfo) operate on PCs. This is determined, in part, by the specifics of PC users, who are usually end-users (and for them a full-fledged system may turn out to be “heavy”). But the main reason is the hardware requirements.

Serious projects using GIS require working with large volumes of data - often it is necessary to have a disk with a capacity of at least 1 GB. When using raster images in GIS and their processing, the requirements for the amount of RAM and its speed become even more stringent, because processing is required in a mode as close as possible to real time.

Modern workstations can somehow cope with this task, but for a PC it is still too difficult. That is why all known GIS packages (Arc/Info, MGE, etc.) are currently fully functional only on stations with RISC architecture. Practically, “all known GIS” should be understood as just these two (Arc/Info), because with total worldwide GIS sales revenue of $46,000,000 in 1993, ESRI (Arc/Info) had revenue of $126,015,000 (27.10%) and INTERGRAPH (MGE) had revenue of $117,180,000 (25.20%). For comparison, the income of other companies did not amount to >5.5%. In addition to products related to one degree or another to GIS, there is a market for simpler and more specialized systems designed exclusively for converting raster images into vector format. Of note are the popular packages I/RAS B, I/RAS C, I/RAS 32, I/GEOVEC, I/VEC (manufactured by Intergraph Corporation), OptiDRAFT Workstation and MAGNUS (manufactured by Optigraphios Corporation), CADCore Hybrid and CADCore Tracer (Information & Graphios Systems, Inc.), GTX Raster CAD and Expert Conversion Series (GTX Corporation), and ScanEdit (SCAN-GRAPHICX, Inc.). All companies presented here with a list of their products are distinguished by their stable financial situation, with the possible exception of GTX Corp., which guarantees future support, maintenance and modernization of products. Prices for the software provided range from $1,995.00 for GTX Raster CAD (interactive digitalization software for PC) to $15,000.00 for I/VEC (automatic conversion software running in batch mode for Intergraph UNIX-workstation).

This software is capable of performing hybrid raster-vector editing and digitalization in various modes (manual, semi-automatic, automatic). Based mainly on PCs and a significant share on Sun SPARCstation. Other platforms include DEC, HP, RISC 6000.

To consider, let us dwell in more detail on the technology of INTERGRAPH, as one of the most advanced companies in the field of geoinformatics. One of the key points of this technology is the conversion of source documents into raster form, simply put - scanning. When a scanner operates, data in the form of an image on a document is converted into a computer file that can be edited, reproduced, transmitted over a network, printed, or archived. The scanning mechanism uses a narrow beam of light to produce a scanned image, which can be presented in color (usually RGB), grayscale (gray scale) and binary. But the scanning process must also include all possible operations involved in converting the image on the document into a usable computer format. And this, in addition to directly reading information by the scanning mechanism, is the process of correlation, quantization, compression, data conversion, transfer to a computer and, finally, file manipulation to create the corresponding file. Some of these operations are performed in hardware by circuits built into the scanner. Others are carried out purely by software. The balance between them determines the cost and performance of the system, and the relationship is inversely proportional. Early, as well as cheaper models, all operations, except, perhaps, reading the light signal and brightness correction carried out to compensate for inhomogeneities in the illumination of neighboring image elements, were assigned to the computer, absorbing its computing and other resources. Modern industrial scanners produced by one of the divisions of Intergraph (ANA Tech) perform all processing operations autonomously and transfer data to the computer in a recorded file format. Thus, disk space is saved - from a few to several thousand megabytes (depending on the size of the document, the image on it and the scanning mode). The time required to process a document is reduced and the processor is freed up, which is very important in multitasking environments and when the computer is working on a network.

Until recently, all INTERGRAPH software products were based only on their own hardware (Intergraph UNIX-station), and only I/RAS B had versions for PC and Sun. However, the corporation is currently relying on Intel processors and the Microsoft Windows NT operating system. Intergraph will continue to support and develop applications for the UNIX OS, but the emphasis will shift to the Intel + Windows NT platform due to its inherent better price/performance ratio.

All applications are based on the MicroStation vector graphics editor. Moreover, they run in the MicroStation environment and are written in MDL, an embedded application development language. MicroStation supports the most advanced networks, connecting users across DOS, Windows NT, Macintosh, UNIX and VAX. The user interface complies with the Open Software Foundation (OSF) Motif standard. Plus, this most powerful editor in the world can be connected to such powerful DBMSs as Informix and Oracle. All this allows you to easily build complex integrated systems, assembling, as if from cubes, the necessary configuration from products executed in a single environment. The range of applications offered by INTERGRAPH covers the entire range of tasks that one has to face when creating and using an automated mapping system. These are applications for entering cartographic information into a computer, transforming, managing and complex analysis of the entered data, for processing aerospace images and for stereophotogrammetric measurements. This can include packages for geodesy, as well as specialized applications focused on publishing maps and modeling the physical processes of the natural environment.

In general, the advantage of this technology is that all components from the necessary equipment (scanners, digitizers, computing systems, other peripherals) to service utilities are manufactured by INTERGRAPH Corporation, and therefore there are no problems when integrating these components with each other due to incompatibility. There is no danger of a supplier monopoly, as a large number of independent firms develop and offer hardware and software products compatible with this technology.

Since 1989, MGE (Modular GIS Environment) - a modular GIS environment and software products adjacent to it - have begun to achieve great success in the market. MGE is today the most widely deployed integrated GIS and end-to-end production mapping system in the world, with over 100 map publishing clients in 25 countries.

Control questions:

Modern technical means of GIS basing.

Software in modern GIS technologies.

5.1. Manual digitalization.

At its core, without changing the entire meaning of the manual digitalization method, this method has added many advantages. Let's list the main ones. The first is that it became possible to more accurately target an object, since it became possible to increase the image scale, i.e. how to enlarge the picture, bring it closer. In addition to the immediate benefit, this also results in the fact that the load on the operator’s visual system is now reduced, because With large objects it's easier to work. And this, in turn, reduces digitalization errors and increases labor productivity. The second advantage is the ability to visually control the output information, because the operator can observe the trace left by the vector line, i.e. see how accurately the resulting vectors describe the original raster image acting as a substrate by simultaneously combining them on the same screen or window.

Other benefits might not be directly attributable to screen digitization as a digitization method, but some analysis shows that it is often becoming standard elements of "screen" technology. We are talking primarily about the functionality of the software used in the work.

The technological scheme of the INTERGRAPH company assumes the use of the MicroStation I/RAS B product for this type of work. In this case, the creation of the vector image itself occurs using the basic graphic editor of the MS environment, and the ability to work with rasters is provided by the I/RAS B package. It allows you to load up to 64 individual raster files as a background and visualize them in any color from a palette of 254 colors, and also turn them off altogether.

Once the required file or group of files has been loaded, the operator can begin digitalization using a mouse input device. As when working with a digitizer, information is entered by indicating the vertices of graphic primitives with direct visual recognition of the objects that they describe. But if in the first case such objects are often a line (segment) and the general case of a polyline (polyline), then in the latter there are a large number of graphic primitives, the input of which is not possible when using a classic digitizer. Let's give a few examples.

When entering a polyline, you can specify that the angle between its segments is a fixed value and equal to 90 degrees, which is very often required when digitizing man-made objects (outlines of buildings, city blocks, etc.). When digitizing objects that have an adjacent boundary, the newly depicted vector line can exactly repeat another one that already belongs to an object by linking its vertices to the vertices of an existing one.

The number of examples is, of course, not limited to just these two, because the basic graphics editor of the MicroStation environment is one of the most powerful vector graphics editors used in the industry today.

Today, such packages are the most commonly used due to their versatility. Most do not offer similar services, differing in interface, embedded algorithms, conversion accuracy, ability to understand complex situations and speed of work.

One such product from a series of applications offered by a well-known company is the I/GEOVEC package. Its operation is based on MicroStation and I/RAS B or I/RAS 32.

With its help, you can interactively enter vector data on top of an existing raster image using the "heads-up digitizing" technique. To do this, it is enough to visually identify the raster object on the screen and place the first point next to it. I/GEOVEC tracks the raster line until it ends or it reaches a point requiring further operator instructions.

The user can set tracking parameters to overcome certain difficulties (breaks in the screen, intersections with other lines, forks, touching contours and text overlaps). The traced line can be filtered and smoothed to straighten low-angle vectors, remove redundant nodes, and round out sharp kinks. These operations are also available as a post process run in batch mode. I/GEOVEC allows you to enter curved images of objects 4 or 5 times faster and more accurately than with the manual method.

The REVERS VIDEO function will allow you to track not the raster itself, but the background, treating it as an image. This feature is irreplaceable when processing roads that are depicted as two parallel lines.

By adjusting the raster gap size and viewing angle, you can force the application to track dotted or dash-dotted lines, which is useful when entering vegetation outlines and various boundaries. When encountering intersecting lines (forks), it is possible to set the default action of the program - stop, turn left or right, go straight, join the intersecting vector line, join and break the intersecting vector line to create a node.

Quite unique for this type of software is I/GEOVEC's ability to recognize text and single symbols. This package increases productivity by expanding the toolkit with other less frequently used but useful features that speed up the conversion process and allow you to control it.

There is currently only a UNIX(CLIX) version. A version for another well-known OS, Microsoft Windows NT, is expected to be released soon.

Even from the fact that we are talking about automatic digitalization, it follows that the program must work in batch mode. From this we get that, most likely, the initial data for such a program will be images with a simple topological structure. For example, drawing horizontal lines. Moreover, these cases occur in only 10% of all digitalization tasks.

To solve such problems of vectorizing raster images, INTERGRAPH offers the I/VEC package. This product converts binary raster data into vector data (polylines, points, and polygon outlines). Basic vector graphics functions are based on MicroStation 32, and raster editing functions are based on the I/RAS 32 package. Functionally, I/VEC is divided into three stages: pre-processing, processing and post-processing, each with its own specific settings, controlled by the user. All together this includes:

Converting linear raster objects into vector format in batch mode;

Manipulation of an input image or user-specified area;

Output of received vector data via the network;

Post-processing functions: generation of vector polyline connections, data compression, removal of dangling ends, filling of gaps, automatic detection and correction of errors, generation of a queue of unsolved problems (suggested to the user);

Special parameters for processing packed data packets;

Migration of scanned data to another Intergraph mapping GIS application (MGE);

Export to other industry standard CAD platforms.

5. 4 . MicroStation MDL as a custom application development environment .

MicroStation is a vector graphics editor and at the same time a software environment for executing and creating applications. It includes a complete set of development tools, consisting of a fully ANSL compiler, a linker, a symbolic debugger, and a make utility.

It has a built-in application development language - MDL. This is a complete implementation of the C language inside MicroStation. Virtually all MicroStation functions can be called from MDL. The proposed API provides access to more than 1000 functions for creating and modifying vector data. MicroStation is an event-driven software environment, which requires a fundamentally new approach to programming. But the proposed API, a set of tools for creating interface elements (dialog boxes, drop-down menus, palettes of buttons with icon symbols, etc.), which is made in the Motif standard, allows programmers to create applications with a shortened development cycle.

The tight connection between MicroStation and applications created through MDL means that programmers can integrate their commands transparently within the MicroStation environment. Multiple MDL applications can run simultaneously. This allows developers to create integrated, tightly coupled application-specific solutions. MicroStation supports the most advanced networks and allows multiple developers to work on a project simultaneously. Users of DOS, Macintosh, UNIX, Windows NT and VAX operating systems can share data interactively. This is possible because MicroStation data files are binary compatible across multiple platforms, allowing file transfer without re-encoding.

Due to the fact that MDL is a built-in language, and the program is compiled and assembled using tools offered by MicroStation developers, it practically becomes hardware independent. Those. can be executed on all types of computer systems and in those operating systems for which the MicroStation system itself is available.

Control questions:

Map vectorization methods.

Software products for vectorization of cartographic documents.

Ways to expand the capabilities of the MicroStation environment/

Chapter VI. Storage and processing of cadastral information.

6.1. Basic concepts.

Effective use of digital data requires the availability of software that provides functions for storing, describing, updating, etc. Depending on the types and formats of their presentation, on the level of GIS software and some characteristics of the environment and the conditions of their use, various options for organizing the storage and access to spatial data can be proposed, and the methods of organization differ for the positional (graphical) and semantic part of them.

In fairly simple GIS software, there are no specific means of organizing storage, data access and manipulation, or these functions are implemented by the operating system within its file organization.

Most existing GIS software tools use quite sophisticated and effective approaches for these purposes, based on organizing data in the form of databases (DBs) managed by software tools called database management systems(DBMS). A database is usually understood as “a set of data organized according to certain rules that provide general principles for describing, storing and manipulating data, independent of application programs,” and a DBMS is “a set of programs and language tools designed for creating, maintaining and using databases.” "

Modern commercial DBMSs, including those used in GIS software, differ in the types of data models supported, among which are hierarchical, network and relational and their corresponding DBMS software tools. DBMS are especially widely used in the development of GIS software.

Relational type DBMSs allow you to present data about spatial objects (points, lines and polygons) and their characteristics (attributes) in the form of a relation or table, the rows of which - indexed records - correspond to a set of object attribute values, and the columns (columns) usually set the attribute type, its size and attribute name. The attributes do not include geometric attributes that describe their geometry and topology. Vector records of object coordinates are ordered and organized using special means. The connection between the geometric description of objects and their semantics in the relational table is established through unique numbers - identifiers.

The convenience of manipulating data in a database significantly depends on the language tools of the DBMS. Ample opportunities are provided to the user of DBMSs that implement the SQL query processing language and its extensions, adapted to the description of spatial queries to the GIS database and containing constructs that include spatial variables and conditions.

One of the main motives that determines the need to use database technology when creating GIS at the present time is the support of modern DBMS for network storage capabilities and the use of local network (LAN) and remote network technologies in the so-called distributed databases. This ensures optimal use of computing resources and the possibility of collective user access to the requested databases.

6.2. Data analysis and modeling.

The data analysis unit, being one of the three large GIS modules (input, processing and output), constitutes the core of geographic information technologies, all other operations of which, from a certain point of view, can be considered service ones, ensuring the ability of the system to perform its main analytical and modeling functions. The content of the analytical block of modern software tools was formed in the process of implementing specific GIS, crystallizing in the form of a more or less established set of operations or groups of operations, the presence, absence or effectiveness (ineffectiveness) of which in a given product can serve as a reliable indicator of its quality.

There are various classifications that make it possible to group elementary operations of an analytical nature or their sequences into groups. Summarizing some of them, and relying on the composition and structure of analytical modules, we can distinguish the following groups:

1.Data restructuring operations.

2.Transformation of projections and change of coordinate systems.

3. Operations of computational geometry.

4.Overlay operations (overlaying different and different types of data layers).

5.General analytical, graphic-analytical and modeling functions.

6.3.Output and visualization of data.

The results of data processing, the main procedures of which are discussed above, leaving their digital shell, must be transformed into a “human-readable” document. GIS software includes a fairly wide range of output data generation tools.

Documents generated at the output:

Tabular;

Graphic;

Cartographic.

The technical means used to generate documents include computer graphics tools, data converters that allow you to convert data from one format to another without losing their geometric and semantic attributes, plotters, and high-resolution graphic displays.

6.4. Classification of modern DBMS.

Classification of DBMS in accordance with the data model used:

Hierarchical.

Relational.

Object.

Hybrid (elements of object and relational).

Currently, the most common DBMSs are products that use the relational data model. This is due to its ease of understanding and better performance compared to others. In this regard, we will focus on considering only relational DBMS (RSDBMS).

Classification of RDBMS depending on the volume of supported databases and the number of users.

Highest level. These products support large databases (hundreds and thousands of GB or more), thousands of users. In large corporations. Representatives: ORACLE7, ADABAS 5.3.2, SQL SERVER11.

Average level. These products support databases up to several hundred GB, hundreds of users. In small corporations and divisions of large firms. Representatives: InterBase 3.3, Informix-OnLine7.0, Microsoft SQL Server6.0.

Lower level. These products support databases up to 1 GB, less than 100 users. In small units. Representatives: NetWare SQL 3.0, Gupta SQL-Base Server.

Desktop DBMS. For one user, used to maintain a desktop database or as a client to connect to a database server.

Assessment of modern DBMS for compliance with the requirements for automated cadastre information systems.

Let's look at standard modern relational DBMSs for each class of product and the main capabilities they provide. We will evaluate them in accordance with the requirements for cadastral registration automation systems.

Highest level:

Oracle7, corp. Oracle

A product of this class has a wide range of functionality, including support for two-phase commit, data replication, stored procedures, triggers, and online backup. It is designed to organize optimal use of system resources, which guarantees maximum expandability. Supports databases that occupy several physical disks, storing new types of data. Supports almost all hardware and software platforms existing today, as well as data transfer protocols. Widely used in many industries. He has proven himself to be the best. Good support from the manufacturer, corp. Oracle.

SQL Server 10, comp. Sybase

A powerful product that supports real-time processing and decision processes. On the same level as Oracle7, but has some limitations in terms of scalability and supports a limited number of hardware and software platforms.

Average level:

Informix-OnLine 7.0, comp. Software

This product supports the following modern technologies, like data replication synchronizing distributed databases and blobs. It can be used to run OLTP (high-speed transaction processing) applications, but the processing speed is slower than top-end products. Installation is possible on a limited number of platforms. It has great opportunities for expansion.

Microsoft SQL Server 6.0, corp. Microsoft

Very good DBMS. Microsoft has developed a good product that fits into the overall concept of the company, releasing only integrated products. This DBMS is integrated with Windows NT, complementing it. Disadvantages: insufficient scalability, small number of supported software platforms.

Low level :

Since each of them provides a similar set of tools, we will not consider each separately. This group includes Cupta SQL-Base Server, Watcom SQL Network Server and others. They have limited capabilities compared to higher-end DBMSs, but in small companies where the databases are small and the number of users is limited to a few dozen people, they perform their database management duties well.

Desktop DBMS:

FoxPro 2.6, corp. Microsoft

Very limited data processing capabilities. Inability to install on the network. Designed for personal matters. Not recommended for use in large systems. There is no ability to protect data, access control and much more.

Paradox 5.0, comp. Borland

It is one of the best in its class, but it has all the disadvantages of desktop DBMSs. Limited application possibilities. User-friendly interface.

Evaluation of modern DBMS :

When using a specific DBMS, three key factors must be taken into account: what client/server architecture it will work in, how the main functions are implemented, and what level of support for distributed databases. Depending on this, you need to make your choice.

Among the presented products, only Oracle7 most fully supports the required requirements. Below will be given the basic concepts about the Oracle7 server.

Control questions:

Concept of DBMS.

DBMS capabilities.

Classification of DBMS.

Chapter VII . DBMS ORACLE7: general provisions.

ORACLE7 database structure.

DBMS ORACLE7, hereinafter simply ORACLE7, has its own relational database model - it is well defined theoretical model work and management of the data set (which makes up the database). Such a model must define data structure, data integrity, and data operations.

Similar to how an enterprise organizes a warehouse of products, ORACLE7 structures the database logically and physically. The logical structure of an ORACLE7 database is a collection of operating system files that store bits and bytes of database information on disk.

Tables: standard logical storage units

ORACLE7 stores and presents all data in tables. A table is an array of related information, that is, data records that have the same attributes. The attributes of a table are its columns, and the data records form the rows of the table. Each table column or attribute contains a specific data type. When the user creates a table. it specifies a label and data type for each column. ORACLE7 supports many different data types such as char, number date, long and others.

Table areas and data files: ORACLE7 standard physical storage units.

When a user creates a new table, he tells ORACLE7 where its data is physically to be stored. The user does this by specifying a tablespace for the new table. A tablespace is a partition or logical area of memory in a database directly corresponding to one or more physical data files after the administrator has defined a tablespace in the database. data, users can create one or more tables in it. A table area is a logical partition of a database that is mapped to one or more physical files. Thus, the tabular data in each table area is mapped to its data files.

The chain table - table_area - data file is what provides ORACLE7 with the characteristics of a relational database that are data independent. After a user creates a table, other users can insert, delete, or update rows in the table by specifying its name in an SQL statement. ORACLE7 takes care of mapping the SQL query to the correct physical disk data.

Region SYSTEM: table area for all tables

Every ORACLE7 database has at least one table area - the SYSTEM area. When a database is created, the administrator specifies the names and sizes of the initial data files for the database. These files form the physical memory on disk for the SYSTEM table area. ORACLE7 uses the SYSTEM tablespace to store the data dictionary. Data dictionary is a set of internal system tables containing all types of information about the database. For example: there are data dictionary tables with information about tablespace tables and DBMS data files.

What are multiple table areas used for? After creating an ORACLE7 database, the administrator usually needs to create other table areas. These are used to physically distribute the data for the planned database. This will keep the data of each application separate from the data of other applications. The reasons lie in the following circumstances:

ORACLE7 allows administrators to control the availability of tablespace-based database information. Thus, they can effectively take applications offline by taking the corresponding tablespace offline (making its tables unavailable).

By using tablespaces wisely, administrators can improve application performance. For example, if an administrator places each application's tablespace data files on different disks on the database server, the applications will not interfere with each other's disk access (there will be no contention for disk access and memory).

Let's look at some components of the ORACLE7 database system.

Views: Ways to view data

When users work with views, they see the same data that is in the database tables, but perhaps from a different perspective. Just as a telescope contains no stars, a view contains no data. A view is a virtual table whose data is obtained from base tables

A view can be thought of as a stored query (it is defined using a query). For example:

CREATE VIEW reorder AS

SELECT id, onhand, reorder FROM stock

WHERE on hand

The REORDER view defines the CREATE VIEW statement. This query matches only those rows in the STOCK table whose current on-hand quantity is less than the point at which a new batch of the product must be ordered.

One of the basic rules of the relational model is that all data should be treated as tables. Thus, the view serves the characteristics of the table. Just like a table, users can use SQL statements for the view (with some restrictions). Of course, the view gets its data from the base table. When a user queries view data, inserts it, deletes it, or updates it in a view, ORACLE7 works with the table data. But unless you know exactly what it is a view, it's hard to distinguish it from a table.

The view can be used to improve security, to display additional information, or to hide complex queries (specific uses are discussed in specialized literature).

Ensuring data integrity.

It is very important that the integrity of the database information is ensured, that is, that the data is valid according to a certain set of rules. The relational model describes some characteristic rules that can be introduced to ensure data integrity in a relational database. These are the domain constraint, the table constraint, and the reference constraint. Integrity rules explain the following concepts.

Domain integrity: Each field value must be a domain element.

Domain integrity ensures that the database does not contain meaningless values. It ensures that the value in a column is a member of the column's domain, that is, the valid set of its values. A row will not be included in the table until each of its column values is in the domain of the corresponding column.

Domain integrity is specified using data types. A data record cannot be included in a table until the data in each column is of the correct type.

All ORACLE7 data types allow developers to describe one or another type of column. You can enter further column domain restrictions. For example, the NUMBER data type allows you to define precision (the total number of significant digits) and scale (the total number of digits to the right or left of the decimal point), and so on (see the reference manual for a more complete description).

Integrity of the entire table: ensuring the uniqueness of each row.

Another built-in data integrity constraint is whole-table integrity, which means that every row in a table must be unique. If the table has such a restriction, then you can make it unique. If a table has such a constraint, then you can uniquely identify each of its rows.

To establish the integrity of an entire table, the developer specifies a column or group of columns in the table, defining it as a primary key. A unique primary key value must be contained in each row of the table. Implicitly, this means that every row in the table must have a primary key, since a missing value, i.e. NULL, will not be distinguished from other NULL values.

A table can only have one primary key. In many cases, developers need to eliminate duplicate values from other columns as well. To do this, the developer can select another key column - set an alternative or unique key. As in the primary key, the table cannot contain duplicate values in the alternative key.

Integrity constraints make it easy to specify the integrity of a table, and the entire database as a whole. Because developers can specify standard integrity rules as part of the table definition, it is easy to use such integrity constraints. Let us give examples of operators that specify integrity constraints, using the example of a database consisting of two tables.

CREATE TABLE customer

lastname CHAR(50) NOT NULL,

firstname CHAR(50) NOT NULL,

UNIQUE (lastname,firstname),

('AL','AK','AZ','OH','SC','WV'))) --abbreviated state names

CREATE TABLE orders

(customerid NUMBER(5,0) NOT NULL,

orderdate DATE NOT NULL,

CHECK (status IN (‘F’,’B’)), --F-paid, B-debt

FOREIGN KEY (customerid) REFERENCES customer)

In this example, NOT NULL, CHECK constraints allow you to specify domain constraints on the table. To define a primary key and set table integrity constraints, the developer must describe the table's integrity using PRIMARY KEY. For the customer table, a UNIQUE constraint is also described, which ensures the uniqueness of the first and last names of customers.

Referential integrity: Ensuring that related tables are kept in sync.

Referential integrity or relational integrity is another elementary rule of integrity in the relational model. Referential integrity defines the relationships between various columns and tables in a relational database. It gets its name because the values in one column or set of columns refer to or must be the same as the values in another column or set of columns.

New terms will be encountered when describing referential integrity. A column that another table depends on is called a foreign key. In this case, another table is called the parent key (this must be a primary or unique key). The foreign key is in the child or detail table and the parent key is in the main table.

The ability to associate values in different tables and maintain referential integrity relationships is a very important characteristic of relational databases. With the ability to link tables, relational DBMS servers can store data very efficiently.

In the example above, the FOREIGN KEY integrity constraint specifies a referential integrity constraint that defines a foreign key for the table. With this we join the orders table with the parent table customer.

Business rules: specific data integrity rules.

Until now, these have been standard data integrity rules built into the relational data model. However, each organization's database defines its own unique set of business rules that are no less important than the standard set of data integrity rules. For example, a security administrator might want to prevent a table from being modified outside of normal business hours or getting a column value when a user inserts or updates a record.

To set special rules, ORACLE7 suggests using stored procedures or triggers. For a complete understanding of how to set special rules, please refer to the reference materials.

7.3. Controlling access to data in a multi-user DBMS.

Since the database must be accessed by many users, the DBMS must provide multiple access to the database. Unfortunately, single-user DBMSs are not suitable for collaborative work. Let's consider the problem of mutual influence using the example of a file cabinet. You want to use the same information that someone else is currently working with. If you want to see the results of another user's work, you will have to wait. If these results do not affect your work, you can copy the data. Inconvenience arises. The file cabinet illustrates the concurrency problems that arise when multiple users try to work with a database at the same time.

In multi-user DBMSs they talk about the problem of competition - attempts by many users to simultaneously perform operations on the same data. In fact, the task of providing parallel access to data is one of the most important and most obvious tasks of a database server. The database server must manage information in such a way that, while maintaining data integrity, users wait for the minimum amount of time for other users to complete work. If the database server fails to meet one of these goals, users will immediately notice the consequences. When many transactions compete for the same data, users will experience poor performance or receive inaccurate results.

These are problems, but ORACLE7 solves these problems. Let's see how he does it.

Preventing destructive mutual influences using data locks.

When two operations competing for the same data interfere with each other, it can result in inaccurate results or loss of data integrity. This is called “destructive mutual influence”. To prevent such situations when users simultaneously access data, locks are used. Just as the turntable in a checkpoint does not allow two people to pass through it at the same time, data blocking prevents destructive influence in a multi-user DBMS. There are exclusive and shared locks.

By locking a luggage locker at a train station, you receive exclusive rights to it. No one can put it in it until you release it. If you want your friend to use this cell, then indicate the font. ORACLE7 also blocks data in the same way.

When a user tries to perform operations on data that someone else is working with, ORACLE7 automatically blocks them and prevents the possibility of destructive influence. If possible (that is, it will not cause disruption), always use a shared lock. However, if such locking leaves the possibility of disruptive influence, an exclusive lock is placed on the data requested by your transaction. An exclusive lock prevents any type of lock from locking the same data and ensures data integrity by eliminating concurrent access to the same data.

Get accurate data with high access: queries, consistent reads, and versioning.

The previous examples show how Occale7 processes two different update transactions for the same data set. What happens in the case of queries containing only read operations? How does Oracle7 handle competing queries and queries with update operations while returning accurate results?

In these situations, Oracle 7 uses the following approach. First, the transaction does not require row locking for any type of query. This means that two transactions can issue exactly the same query at the same time without any contention for the same set of rows. The absence of read locks also means that such a query cannot block updates and vice versa.

How does Occale7 return accurate results if it doesn't lock on queries? One might think that without row locking for queries, a competing update to the query might produce an inaccurate result set for the query.

Ohasle7 can eliminate row locks for queries while maintaining the accuracy of the results thanks to its versioning mechanism. For each request, ORACLE7 returns the requested version of the data at the current point in time. At the time requests are received, Oxle7 ensures that each row in the query result is consistent.

Rollback segments.

Using the data stored in rollback segments, Occasle7 can create read-consistent copies (result sets) of the data for a query. The rollback segment (or rollback segment) is an area of disk memory that Oracle 7 uses to temporarily store old data values updated by a delete or update row transaction. If the user rolls back a transaction, Oracle7 reads the rollback segment assigned to the transaction and returns the rows it modified to their original state. Additionally, Oracle 7 uses a rollback segment in its versioning mechanism. If a query requires data that changes during its execution, Oracle7 uses the rollback segment data to generate a read-consistent copy of the data (at a given point in time). All this happens automatically.

By allowing multiple users and applications to access the same database in parallel, with adequate system performance and full accuracy, developers don't have to worry about complex locking and versioning mechanisms. However, if they want to get the most out of an application's performance, Oracle 7 provides controls that override the default locking mechanisms.

Ensuring data protection.

Is it possible for anyone to log into an Oracle 7 database and start using the data, reading tabular information and modifying it? Of course not! If this were the case, users could see data that was not intended for them (such as their boss's salary), and attackers could easily erase or change the data at their discretion (for example, giving themselves a pay raise). One of the responsibilities of the database server is to ensure that all DBMS information is protected. Whether or not you want to protect your data from the eyes of unauthorized users or intruders, security is an important function of a database. To ensure security, Oracle 7 uses a selective access control system, which means that the administrator assigns passes to all users registered in the database and gives them permission to perform specific operations on specific data in the database. The various methods for managing Oracle7 security are described in the following sections.

Granting users access to the database.

Accessing the Office7 database is very similar to accessing a telephone banking system. First, you need to get public access to the database. To give someone access to the Oracle7 database, the administrator must register him and create a new user in the database (by defining his name). To ensure secure access, the password must match the name of this new user. To connect to the database, the user must enter both a name and a password. For example, the following SQL statement creates a new user:

CREATE USER safedorow IDENTIFID BY p1e

As this example shows, administrators should choose meaningful user names (for example, combining first and last names). However, users should choose passwords that are complex and meaningless. This will make it difficult for attackers to identify them.

Once a user has access to an Oracle 7 database, other access controls restrict his or her operations within the DBMS.

Expansion and limitation of powers.

As with 24/7 telephone banking, you can only perform limited transactions. For example, you can check your checking and savings accounts, but you cannot do so for other users' accounts. That is, you only have the authority to view information related to your accounts.

Oracle7's security system is very similar to the security of a telephone banking system. An administrator can control all database operations and data access, including which users can create tables and views, which users can create and modify table areas, and which users can read and modify various database tables and views. This is done by granting and revoking various permissions or access rights. Here are examples of the SQL GRANT and REVOKE commands used for this:

GRANT CREATE SESSION, CREATE TABLE TO safd

REVOKE CREATE TABLE FROM allin

The GRANT statement gives the SAFD user the authority to connect to the database (that is, to initiate a session with the database) and create tables. The REVOKE statement revokes user ALLIN's permission to create tables.

Office has two broad classes of permissions, which are described in the next two sections: object permissions and system permissions.

System Authority: Manage advanced system operations.

System permissions are advanced and powerful permissions that give a user the right to perform a database-wide operation. Let's give an example:

A user with ALTER DATABASE system authority can change the physical structure of the database by adding new files to it.

A user with DROP TABLESPACE system authority can drop any tablespace (except the SYSTEM tablespace).

A user with SELECT ANY TABLE system authority can query any table in the database.

These are just a few of the many Oracle7 system powers. Because system privileges are very broad privileges, administrators should only grant them to other administrators.

Permissions on database objects: controlling access to data.

Object permissions control how a database operates on a specific database object. (An object is something that is inside a database: table, view, role, procedure, user, etc.). For example, an administrator can control who queries the CUSTOMER table. To do this, it grants SELECT authority on that table only to specific users. There are other object permissions, which can be found in the Oracle7 Application Guide.

Managing security using roles.

Managing security in a large client/server database is a complex task. Multiple authorities and users within the system may require specific authority designations. Without an administrative tool, managing security can be a nightmare. Fortunately, Oracle7 offers a solution that makes it easier to manage permissions in a large, complex client/server system: roles. A role is a set of related permissions that an administrator can collectively grant to users and other roles. Using roles, an administrator can greatly simplify the management of permissions.

Easily managing permissions is not the only benefit of using roles. Perhaps more importantly, developers can use roles to dynamically change the domain (current set) of users' permissions as they work with different applications. By simply allowing the appropriate role at startup, an application can ensure that all its users have the correct permission domain.

Schemas in Oracle7.

When working with Oracle7, you will often come across the term “schema”. This word can have very different meanings. Just as administrators can physically organize Oracle7 tables using tablespaces, they logically organize tables and views in a relational database using schemas. A schema is a logical collection of related tables and views, as well as all other database objects. For example, when adding a new application to a client/server DBMS, the administrator should create a new schema to organize the tables and views that the application will use. Figure 4 shows a sales accounting application.

Oracle7 doesn't actually implement database schemas. The administrator simply creates a new database user, which in turn effectively spawns a default database schema. When a database user creates a new view or table, that object becomes part of the schema by default. In fact, given database schemas, you can say that a user owns all objects in their default schema. Relational DBMSs with more advanced schema implementations allow users to switch between the default schema and other database schemas and perform various operations that match the current schema. Perhaps future versions of Oracle will implement such features.

Ensuring that the data users need is available.

In any computer program, a user will not be able to access a file until he runs an instance of the application that opens the file. For example, to open a report created using a word processor, the user must first launch the word processor and then open the report file in it. As explained in the following sections, the work in the Oracle7 DBMS is somewhat similar.

Manage overall database availability during startup and shutdown.

As with running a multi-user OS, in Oracle7 no one can use the data until the administrator starts the server and makes the database available. This requires several steps. First, the administrator needs to start a database instance. An instance is a collection of memory buffers (temporary cache buffers of data in the computer's main memory) and OS processes (OS-scheduled tasks or jobs) that together provide multiple access to an Oracle7 database. During the database startup phase, Oracle7 opens various files necessary to make the database available.

To make a database unavailable to regular users, the administrator closes it, unmounts it, disconnects it from the instance, and then stops the instance. During the shutdown process, Oracle7 closes the OS files that make up the database. The Oracle7 database server starts the instance to make the system available for use and stops it to take it offline.

Once the administrator has started the database instance and opened it, privileged users can connect to the database and create a new session. A database session can be thought of as the time elapsed between a user connecting to a database instance and disconnecting from it. A session in the database is similar to a session with a doctor - when you enter the office, the session begins, and when you leave, it ends.

Parameter files and instance launch.

Each time an administrator starts a new session, Oracle7 reads the initialization parameters file to configure the new instance. For example, an administrator can set different parameters to control the size of an instance's memory buffers.

Manage partial database access using online and self-contained table areas.

The administrator can also control the availability of information in an open database based on table areas. If the tablespace is online, then privileged users can query and modify the tables in the tablespace. However, if the tablespace is offline, no one can use the data in the tablespace.

Oracle7 tablespace availability management can be very useful for many administrative operations.

If all tabular applications are in a tablespace, then the administrator can effectively stop the application by taking its application tablespace to an offline state.

Let's assume that a tablespace contains historical data that is useful only in very rare cases, and an administrator needs disk space to store data from other tablespaces. To free up some disk space, an administrator can take the tablespace containing archived data offline and then delete the archived data from the disk. The administrator must take care to back up the offline archive tablespace data files and store them in a secure location. It can use the freed up disk space to store information from other table areas.

Oracle7 DBMS administrators should be the only users managing the availability of the database and its table areas.

7.6. Archiving and recovery of data.

Probably each of us has lost an important file. Accidents and errors are inevitable, so the administrator needs to be prepared to recover data. The next few sections will introduce the reader to the various security mechanisms built into the Oracle7 database server

Transaction protection: transaction log.

A commercial airliner's flight log records everything that happens during a flight in the cockpit. A nearly indestructible little box (“black box”) records information in the event of a plane crash. After a disaster, it can be examined and the cause can be found out. Oracle7 also maintains a log that records changes that occur in the database. Every time a SQL statement makes a change to the database, Oracle7 writes it to the transaction log (also called the undo log). If the user completes a transaction, Oracle7 immediately writes data to the log, confirming that the transaction and its changes are made permanent.

Oracle7 uses the transaction log to recover from various failures. For example, if a power failure occurs while the database instance is running and Oracle7 has not yet written the data files (that is, some unsaved data), do not worry. The next time you start the Oracle7 instance, it automatically restores the database to the state it was in as a result of the last completed transaction before the failure. To recover lost transactions, Oracle7 uses the changes recorded in the transaction log.

How Oaccle7 uses the transaction log, archived data files, and rollback segments in the event of a major failure is discussed below in the “Database Recovery” section. But first, let's talk a little about the transaction log.

Transaction log structure.

A database transaction log contains two or more fixed-size log file groups, or group members, that Oracle7 uses to physically save changes to the database. The physical structure of a typical database transaction log is illustrated in Figure 5. A transaction log can have two (or more) groups. After transactions fill one group, Oracle7 switches to the next available group to continue recording changes occurring in the database. Meanwhile, Oracle7 automatically archives (backs up) completed transaction groups. Moreover, this is done in parallel, without affecting the current transaction process. Recycling transaction groups allows Oracle7 to allocate a small, fixed amount of disk space to the transaction log. Archiving completed transaction groups creates a permanent, offline log of sequential transactions.

Since the recovery mechanism is a vital component of Oracle7, it itself also has security features. To protect against a single failure, such as a disk failure, an administrator can specify mirroring of log groups (log groups) by creating a group with multiple members that are physically located on different drives. Oracle7 logs transactions in mirrored groups, writing changes in parallel to all files in the group. If a drive fails, one of the files in the group on the failed drive becomes inaccessible. However, this does not stop Oracle7: it continues to register changes in other, uncorrupted files of the current registration group.

Database archiving.

Given possible problems such as disk failure, disk formatting, or file deletion, the administrator needs not only the transaction log, but also physical copies of the files that make up the database to restore the database.

Archiving data files.

Oracle7 data files contain all the tabular data of the DBMS. When a user modifies data in tables or adds new objects to the database, Oracle7 updates the data files to record these changes. The administrator can save data files regularly, maintaining relatively fresh copies of them. Oracle7 provides the administrator with several options for saving data files. The simplest of these is to copy all files after closing the database. However, many systems require continuous operation. Stopping the database to perform regular archiving is not acceptable in this case. For such systems that require constant access, the Oracle7 online accessible table archiving tool allows you to copy data files while the DBMS is running and in use.

Archiving other files.

In addition to the data files and log files, you should always have a copy of the database parameter files. The database control file should also be archived. This is a small file that Oracle7 uses to keep track of the physical structure of the database, storing the names of all data and log files, and the current transaction log logging sequence. Oracle7 uses a control file at database startup to identify the DBMS data and log files. During recovery, it controls the application of registration group transactions. Similar to log groups, Oracle7 allows an administrator to configure an entire database for mirroring and single failure protection. However, you must also save a copy of the database control file whenever the physical structure of the database changes (for example, adding a new data file or log file), because if a failure occurs, all copies of the control file may become corrupted.

Database recovery after disk failures.

It's good if no one accidentally formats the hard drive and ruins it, damaging the Oracle7 database. But if such a nuisance happens, the administrator can restore the melon database, saving all the work. Let's see how it's done:

The administrator, if necessary, corrects problems with the equipment (for example, replaces a faulty hard drive with a new one).

The administrator restores damaged data files by copying their latest archive copies and, if necessary, restoring archived transaction logging groups on any available disk.

The administrator runs the recovery process, including transactional recovery and rollback recovery. Applying recovery means applying the required transaction log groups to the backup copies of the corrupted data. Reversal recovery involves the reversal of pending transactions remaining after applying recovery.

After the administrator completes the restore process, Oracle7 leaves the database in a transactionally consistent state—the state it was in after the last transaction saved.

We reviewed the description of the structure of the Oracle7 database, important aspects of the server's operation (creation and administration of the database). In order to learn more about the operation of the Oracle7 server, you need to refer to Steve Bobrowski’s book “Oracle7. Computing. Client/server”, as well as technical documentation on the operation of the Oracle7 database server.

Introduction

The State Real Estate Cadastre is a systematized set of information about registered property in accordance with the Federal Law of July 24, 2007. No. 221-FZ “On the State Real Estate Cadastre” (hereinafter referred to as the Law on the Cadastre) of real estate, as well as information on the passage of the State Border of the Russian Federation, on the boundaries between the constituent entities of the Russian Federation, the boundaries of municipalities, the boundaries of settlements, on territorial zones and zones with special conditions for the use of territories, other information provided for by the Law on Cadastre. The State Real Estate Cadastre is a federal state information resource.

State cadastral registration of real estate (hereinafter - cadastral registration) recognizes the actions of the authorized body to enter information about real estate into the state real estate cadastre, which confirms the existence of such real estate with characteristics that make it possible to define such real estate as an individually defined thing (hereinafter - unique characteristics of the property), or confirm the termination of the existence of such real estate, as well as other information on real estate provided for by the Cadastre Law. Cadastral activity is the performance by an authorized person (hereinafter referred to as the cadastral engineer) in relation to real estate in accordance with the requirements established by the Cadastre Law, of work that results in the preparation of documents containing the information necessary for cadastral registration of such real estate (hereinafter referred to as cadastral work).

Cadastral registration and maintenance of the state real estate cadastre are carried out by the federal executive body authorized in the manner established by the Constitution of the Russian Federation and the Federal Constitutional Law of December 17, 1997 N 2-FKZ "On the Government of the Russian Federation" in the field of state registration of rights to real estate and transactions with it, cadastral registration and maintenance of the state real estate cadastre (hereinafter referred to as the cadastral registration authority). The legal basis for regulating cadastral relations is the Constitution of the Russian Federation, the Civil Code of the Russian Federation, the Land Code of the Russian Federation, the Forest Code of the Russian Federation, the Water Code of the Russian Federation, the Town Planning Code of the Russian Federation, the Housing Code of the Russian Federation, this Federal Law, other federal laws and those issued in in accordance with them other regulatory legal acts of the Russian Federation.

1. Introduction of an automated system into the state real estate cadastre

.1 Principles of maintaining the state real estate cadastre

According to Art. 4 Federal Law "On the State Real Estate Cadastre"<#"justify">.2 Cadastral number of the property and cadastral division of the territory of the Russian Federation

The cadastral number of a real estate property in the Russian Federation is a unique, non-repeating number of a real estate property in time and on the territory of the Russian Federation, which is assigned to it during an inventory and is retained as long as the property exists as a single object of registered right.

The cadastral number of a land plot consists of the number of the cadastral district, the number of the cadastral district, the number of the cadastral quarter, the number of the land plot in the cadastral quarter. The procedure for assigning cadastral numbers to land plots in the process of their state cadastral registration is determined by the relevant Rules approved by the aforementioned Decree of the Government of the Russian Federation of September 6, 2000.

The cadastral number of a land plot consists of the cadastral number of the cadastral quarter and the number of the land plot in this quarter. The Government of the Russian Federation, by Resolution No. 660 of September 6, 2000, approved the Rules for the cadastral division of the territory of the Russian Federation and the Rules for assigning cadastral numbers to land plots, which determine the procedure for the cadastral division of the country's territory for the purpose of maintaining the state land cadastre and assigning cadastral numbers to land plots. In accordance with these Rules, the entire territory of the Russian Federation, including the territories of its constituent entities, internal waters and the territorial sea, is divided into cadastral districts. A cadastral district is recognized as a part of the territory of the Russian Federation, within the boundaries of which the state register of lands of the cadastral district is maintained. The state register of lands of the cadastral district is an integral part of the Unified State Register of Lands.

A cadastral district usually includes the territory of a constituent entity of the Russian Federation, as well as the waters of internal waters and the territorial sea adjacent to this territory. The establishment of the boundaries of cadastral districts and the assignment of cadastral numbers to them is carried out by the Federal Land Cadastre Service of Russia. The territory of the cadastral district is divided into cadastral districts. A cadastral district is recognized as part of the territory of a cadastral district, within which the state cadastral registration of land plots is carried out and the state register of lands of the cadastral district is maintained. The state register of lands of a cadastral district is an integral part of the state register of lands of a cadastral district.

A cadastral region includes, as a rule, the territory of an administrative-territorial unit of a constituent entity of the Russian Federation. The water area of internal waters and the territorial sea can form independent cadastral areas. The territory of the cadastral region is divided into cadastral quarters. A cadastral quarter is the smallest unit of cadastral division of the territory of a cadastral district, for which an independent section of the state register of lands of the cadastral district is opened and a duty cadastral map (plan) is maintained.

A cadastral quarter usually includes small settlements, urban or settlement blocks and other territories limited by natural and artificial objects.

The cadastral number of a cadastral quarter consists of the number of the cadastral district, the number of the cadastral district in the cadastral district and the number of the cadastral quarter in the cadastral district. The cadastral division of the territory of a cadastral district into cadastral districts and cadastral quarters is carried out by the territorial body of Roszemkadastre on the basis of developed projects for the cadastral division of the corresponding territories. The requirements for cadastral division and the procedure for recording cadastral units are established by the specified Service.

.3 Sections of the state real estate cadastre

According to Article 13 of the Federal Law “On the State Cadastre”:

State Real Estate Cadastre: - register of real estate objects; - cadastral affairs; - cadastral maps.

The register of real estate objects contains information about real estate objects. It consists of: - registers of real estate of cadastral districts, maintained on electronic media; - forms of state registers of lands of cadastral districts, containing information about previously registered land plots, and journals of registration of cadastral numbers of cadastral districts on paper. Registers are created on the basis of state registers of lands of cadastral districts on electronic media, which are an integral part of the Unified State Register of Lands.

Cadastral information in the register (appendix) is contained in text form and is grouped into the following records: - about real estate located on the territory of the cadastral district; - about the passage of the State border of the Russian Federation; - about the borders between the constituent entities of the Russian Federation; - about the boundaries of municipalities; - about the boundaries of settlements; - about territorial zones and zones with special conditions for the use of territories; - on the cadastral division of the territory of the cadastral district; - about the cartographic and geodetic foundations of the cadastre.

Forms of state registers of lands of cadastral districts and registers of cadastral numbers of cadastral districts contain information about previously registered land plots and their cadastral numbers on paper. Making new entries in these forms and registers of cadastral numbers of cadastral districts ceases from 01.03.2008.

After this, new information about previously registered land plots or information about the termination of their existence is entered into the register. An entry about a property in the register has the following structure: general information about the property; information about the location of the border of the real estate object (for a land plot) or information about the location of the real estate object (for a building, structure, unfinished construction object and premises); postal address and (or) email address through which communication is carried out with the owner of the property and the holder of other proprietary rights to the property; information about property rights indicating: - type of right; - the size of the share in the right; - information about copyright holders: in relation to an individual - last name, first name and patronymic (patronymic is indicated if available), name and details of an identity document, address of permanent residence or primary residence; in relation to a Russian legal entity - full name, taxpayer identification number, main state registration number, date of state registration, address (location) of the permanent executive body (in the absence of a permanent executive body - another body or person authorized to act on behalf of legal entity without a power of attorney); in relation to a foreign legal entity - full name, country of registration (incorporation), registration number, date of registration, address (location) in the country of registration (incorporation); in relation to the Russian Federation - the words “Russian Federation”; in relation to a subject of the Russian Federation - the full name of the subject of the Russian Federation; in relation to a municipal entity - the full name of the municipal entity (according to the charter of the municipal entity); in relation to a foreign state - the full name of the foreign state; - dates of registration of occurrence or transfer of rights; - date of registration of termination of the right; information about parts of the property; information about restrictions (encumbrances) of real rights: - cadastral number of the object (or registration number of the part of the object) in respect of which a restriction (encumbrance) of the right has been established; - type of restriction (encumbrance) of the right; - content of the restriction (encumbrance) of the right; - validity period of the restriction (encumbrance) of the right; - information about the persons in whose favor the rights are limited (encumbered); - details of the document on the basis of which the restriction (encumbrance) of the right arises; - date of occurrence and termination of the restriction (encumbrance) of the right; information about the cadastral value: the cadastral value of the property and the date of its approval; details of the act on approval of the cadastral value; information about the cadastral engineer who carried out cadastral work in relation to the property: - last name, first name, patronymic; - identification number of the cadastral engineer’s qualification certificate; - abbreviated name of the legal entity whose employee is the cadastral engineer; - date of cadastral work; information about the termination of the existence of the property (date of deregistration); other information about the property: - status of cadastral information about the property - previously recorded, entered, temporary, recorded, archived, cancelled; - details of decisions made by authorized officials of the cadastral registration body.

Cadastral affairs are a section of the state real estate cadastre. According to Section IX of the Procedure for maintaining the state real estate cadastre, it consists of: - cadastral files of real estate objects; - cadastral affairs of territorial zones; - cadastral affairs of zones with special conditions for the use of territories; - cadastral affairs of cadastral division; - cadastral files of the geodetic basis of the state real estate cadastre; - cadastral affairs of the cartographic basis of the cadastre; - cadastral files of sections of the State border of the Russian Federation; - cadastral affairs of borders between constituent entities of the Russian Federation; - cadastral affairs of municipal boundaries; - cadastral affairs of the boundaries of settlements. Cadastral files are included in the list of files of the cadastral registration authority and are subject to permanent storage. A cadastral file may consist of several parts and volumes. The volume of each part or volume should not exceed 250 sheets. Cadastral cases of cadastral division can be divided into cases of cadastral division of the territory of a cadastral district into cadastral districts and cases of cadastral division of the territory of cadastral districts into cadastral quarters.

Cadastral maps are a document, thematic maps that display in graphic and text form cadastral information about cadastral registration objects (land plots, buildings, structures, objects of unfinished construction, the passage of the State border of the Russian Federation, borders between constituent entities of the Russian Federation, boundaries of municipalities, boundaries of settlements, territorial zones, zones with special conditions for the use of territories, cadastral division of the territory of the Russian Federation, and also indicates the location of points of support boundary networks). Cadastral maps are maintained by the cadastral registration authority. These maps can be used by an unlimited number of people and are public cadastral maps. The information contained in public cadastral maps, as well as in other cadastral maps, and the types of such maps are determined by the regulatory body in the field of cadastral relations.

2. Cadastral activities

.1 Information about the cadastral engineer

Federal Law "On the State Real Estate Cadastre" No. 221-FZ of July 24, 2007. It is determined that only a cadastral engineer has the right to carry out cadastral activities. A cadastral engineer is an individual who is a citizen of the Russian Federation and has a qualification certificate as a cadastral engineer. A cadastral engineer must have a secondary vocational education established by a regulatory body, or a higher education obtained from an accredited higher vocational educational institution. The cadastral engineer, at his discretion, can choose one of two forms of activity:

Cadastral engineer as an individual entrepreneur.

A cadastral engineer is an employee of a legal entity on the basis of an employment contract between a cadastral engineer and a legal entity. Cadastral engineers have the right to create non-profit associations in the form of a non-profit partnership. Cadastral work is carried out by a cadastral engineer on the basis of a contract concluded with the customer for such work. If a cadastral engineer performs cadastral work as an individual entrepreneur, then an agreement must be concluded between the cadastral engineer and the customer of cadastral work.

If the cadastral engineer carries out his activities as an employee of a legal entity, then the cadastral work contract must be concluded directly by the legal entity itself with the customer of the cadastral work. The result of cadastral work performed by a cadastral engineer, regardless of the form of his activity, is:

Boundary plan, if the object of cadastral work is a land plot.

Technical plan, if the object of cadastral work is a building, structure, premises or an unfinished construction site.

An inspection report, which is drawn up if the customer submits a corresponding application to the cadastral registration body, and the cadastral engineer, when carrying out cadastral work, ensures the preparation of relevant documents that allow the building, structure, premises, or unfinished construction object to be removed from cadastral registration.

.2 Preparation of a boundary plan

On January 1, 2009, new requirements for the form and preparation of the boundary plan came into force, and an approximate form of notification of boundary approval was developed. The Ministry of Economic Development of the Russian Federation developed and approved Order No. 412 dated November 24, 2008 “On approval of the form of the boundary plan and requirements for its preparation, an approximate form of notice of a meeting to agree on the location of the boundaries of land plots” (hereinafter referred to as Order No. 412) .

In connection with the entry into force of this document, the Order of the Federal Land Cadastre Service of Russia dated October 2, 2002 No. P/327 “On approval of the requirements for the preparation of land surveying documents submitted for registration of land plots with state cadastral registration” (Hereinafter) - Order No. P/327). The concept of a boundary plan, which is used in the order, is disclosed by the Federal Law of July 24, 2007 No. 221-FZ “On the State Real Estate Cadastre”. By virtue of Article 38 of this Law, a boundary plan is a document that is drawn up on the basis of a cadastral plan of the relevant territory or a cadastral extract about the corresponding land plot and in which certain information entered into the state real estate cadastre is reproduced and information about the land plot or land plots being formed is indicated, or about a part or parts of a land plot, or new information about a land plot or land plots necessary for entering into the state real estate cadastre.

The boundary plan includes information about:

) land plots formed during the division, merger, redistribution of land plots (converted (original) land plots) or separation from land plots;

) land plots formed from lands in state or municipal ownership;

) land plots from which, as a result of allocation on account of the share (shares) in the right of common ownership, new land plots were formed, as well as land plots that, in accordance with the Land Code of the Russian Federation and other federal laws after the division, remain within the changed boundaries, and previously registered (before March 1, 2008) land plots representing a single land use (modified land plots);

) land plots in respect of which cadastral work is being carried out to clarify information from the state real estate cadastre about the location of boundaries and (or) area (land plots being updated). With the introduction of Order No. 412, the number of sections that cadastral engineers need to fill out has increased, as well as the number of copies of the boundary plan that should be prepared. Until January 1, 2011, along with cadastral engineers, boundary plans are also drawn up by persons who, on the day the Federal Law of July 24, 2007 No. 221-FZ “On the State Real Estate Cadastre” came into force, had the right to carry out work on territorial land management. In the case of preparation of a boundary plan by a person who has the right to carry out work on territorial land management, on the title page of the plan it is necessary to indicate the main state registration number of the legal entity, and in relation to an individual - the individual taxpayer number.

Persons with the status of cadastral engineer indicate the numbers of the qualification certificate. In accordance with the requirements for the preparation of survey documents submitted for registration of land plots with the state cadastral register, approved by Order No. P/327, the description of land plots should have contained the following sections: 1. Title page; 2. Drawing of land plots; 3. Description of boundaries; 4. Information about land plots (in ascending order of symbols of land plots); 5. Application. The title page, the section “Drawing of land plots” and the Appendix were drawn up on paper. Sections “Description of boundaries” and “Information about land plots” were prepared on paper and (or) electronic media in the format determined by Roszemkadastr. The boundary plan, in accordance with the currently valid Order No. 412, must consist of text and graphic parts, which are divided into sections that are required to be included in the boundary plan, and sections, the inclusion of which in the boundary plan depends on the type of cadastral work. In this case, the text part of the boundary plan must include a title page and contents.

The text part of the boundary plan includes the following sections: 1) initial data; 2) information about the measurements and calculations performed; 3) information about the land plots and their parts being formed; 4) information about the changed land plots and their parts; 5) information about land plots through which access to newly formed or changed land plots is provided; 6) information about the specified land plots and their parts; 7) information about the parts of the land plot being formed; 8) conclusion of a cadastral engineer; 9) act of agreeing on the location of the border of the land plot.

The graphic part of the boundary plan includes the following sections: 1) diagram of geodetic constructions; 2) layout of land plots; 3) drawing of land plots and their parts; 4) outlines of nodal points of the boundaries of land plots. In contrast to the way in which descriptions of land plots were prepared by land managers previously, currently the boundary plan can be drawn up both on paper and on electronic media in the form of an electronic document.

The boundary plan required for submitting an application for cadastral registration of the land plots being formed to the cadastral registration authority can be drawn up in the form of an electronic document certified by the electronic digital signature of a cadastral engineer. If the boundary plan is provided on electronic media, it is not required to copy it in paper form. The boundary plan, according to the new rule, if it is drawn up on paper, is made in at least two copies; as a rule, three copies are required.

The requirements for the preparation of a boundary plan establish that the plan is drawn up on the basis of information from the State Property Committee on a certain land plot (cadastral extract) and (or) information about a certain territory (cadastral plan of the territory). If necessary, cartographic materials and (or) land management documentation stored in the state fund of data obtained as a result of land management can be used to prepare a boundary plan. As a rule, a boundary plan is drawn up to clarify the location of the border of a land plot or to clarify the location of the boundaries of adjacent land plots. In this case, you should pay attention to a number of features and rules established by the Federal Law of July 24, 2007 No. 221-FZ “On the State Real Estate Cadastre”.

2.3 The procedure for agreeing on the location of land boundaries

Article 39. Procedure for agreeing on the location of land boundaries

The location of the boundaries of land plots is subject to mandatory approval in the manner established by this Federal Law (hereinafter - approval of the location of boundaries) with the persons specified in Part 3 of this article (hereinafter - interested parties), in the case of cadastral work, which results in the preparation of documents for submission to the cadastral registration authority an application to take into account changes in one of the specified land plots in connection with clarification of the location of its boundaries.

The subject of the agreement specified in Part 1 of this article with the interested party when performing cadastral work, which results in the preparation of documents for submitting an application to the cadastral registration authority to take into account the relevant changes in the land plot, is to determine the location of the border of such a land plot, which is also the border of another property belonging to it. interested person of the land plot. An interested person does not have the right to raise objections regarding the location of parts of the boundaries that are not at the same time parts of the boundaries of the land plot owned by him, or to agree on the location of the boundaries on a reimbursable basis.

Coordination of the location of boundaries is carried out with persons who own adjacent land plots by right:

) property (except for cases where such adjacent land plots, which are in state or municipal ownership, are provided to citizens for lifelong inheritable possession, permanent (indefinite) use, or to legal entities that are not state or municipal institutions or state-owned enterprises, for permanent (indefinite) ) use);

) lifelong inheritable ownership;

) permanent (unlimited) use (except for cases where such adjacent land plots are provided to state or municipal institutions, state-owned enterprises, state authorities or local governments for permanent (unlimited) use);

) lease (if such adjacent land plots are in state or municipal ownership and the corresponding lease agreement is concluded for a period of more than five years).

On behalf of the persons specified in Part 3 of this article, their representatives have the right to participate in the coordination of the location of borders, acting by virtue of powers based on a notarized power of attorney, an indication of a federal law, or an act of an authorized state body or local government body. At the same time, a representative of the owners of premises in an apartment building, authorized for such approval by a decision of the general meeting of these owners adopted in the manner established by federal law (if the corresponding adjacent land plot is part of the common property of these owners), a representative owners of shares in the right of common ownership of a land plot from agricultural lands - by decision of the general meeting of owners of such shares (if the corresponding adjacent land plot is part of agricultural land and is owned by more than five persons), a representative of members of a horticultural, gardening or dacha non-profit association of citizens - by the decision of the general meeting of members of this non-profit association or by the decision of the meeting of authorized representatives of this non-profit association (if the corresponding adjacent land plot is located within the territory of this non-profit association and belongs to public property).

Coordination of the location of boundaries is carried out at the choice of the customer of cadastral work with the establishment of boundaries of land plots on the ground or without establishing the boundaries of land plots on the ground. The interested party has the right to demand coordination of the location of the boundaries with their establishment on the ground. In this case, such coordination is carried out with the establishment of appropriate boundaries on the ground, with the exception of the cases provided for in Part 6 of this article.

Coordination of the location of boundaries is carried out without establishing them on the ground, regardless of the requirements of interested parties, if:

) land plots, the location of the boundaries of which is agreed upon, are forest plots, land plots as part of lands of specially protected natural territories and objects or as part of agricultural lands intended for the implementation of traditional environmental management by indigenous peoples of the North, Siberia and the Far East of the Russian Federation;

) the location of the boundaries of land plots subject to approval is determined by indicating natural objects or objects of artificial origin or their external boundaries, information about which is contained in the state real estate cadastre, which makes it possible to determine the location of the boundaries of such land plots subject to approval;

) the location of the boundaries of land plots, subject to approval, is determined by the location of a linear object on one of such land plots and the norms for land allocation for its location.

Coordination of the location of boundaries at the choice of the cadastral engineer is carried out through a meeting of interested parties or individual agreement with the interested party. Coordination of the location of boundaries through a meeting of interested parties without establishing the boundaries of land plots on the ground is carried out on the territory of the settlement within the boundaries of which the corresponding land plots are located or which is the closest settlement to the location of the relevant land plots, unless another location is determined by the cadastral engineer by agreement with interested parties.

If the location of boundaries is agreed upon through a meeting of interested parties, a notice of a meeting to agree on the location of boundaries is given to these persons or their representatives against signature, sent to their postal addresses by mail with return receipt requested and to their e-mail addresses in accordance with cadastral information , provided for in paragraphs 8 and 21 of part 2 of Article 7 of this Federal Law (if such information is available), or is published in the manner established for the official publication of municipal legal acts and other official information of the relevant municipality. Publication of a notice of a meeting to agree on the location of boundaries is permitted if:

) in the state real estate cadastre there is no information about the postal address of any of the interested parties or a notice of a meeting to agree on the location of boundaries has been received, sent to the interested person by mail, with a note indicating the impossibility of its delivery;

) an adjacent land plot is located within the territory of a horticultural, gardening or dacha non-profit association and belongs to common property, or is part of agricultural land and is owned by more than five persons, or is part of the common property of the owners of premises in an apartment building.

The notice of the meeting to agree on the location of the boundaries must indicate:

) information about the customer of the relevant cadastral work, including postal address and contact telephone number;

) information about the cadastral engineer performing the relevant cadastral work, including his postal address, email address and contact telephone number;

) cadastral number and address of the land plot in respect of which the corresponding cadastral work is being carried out, cadastral numbers and addresses of land plots adjacent to it (in the absence of addresses, information about the location of the land plots is indicated);

) the procedure for familiarizing yourself with the draft boundary plan, the place or address where this project can be familiarized with from the day of delivery, sending or publication of the notice;

) place, date and time of the meeting to agree on the location of the boundaries;

Notice of a meeting to agree on the location of boundaries must be served, sent or published no later than thirty days before the date of this meeting. In this case, the period specified in paragraph 6 of part 9 of this article cannot be less than fifteen days from the date of receipt by the interested person of the relevant notice. The approximate form of the notification is established by the regulatory body in the field of cadastral relations.

When coordinating the location of boundaries, the cadastral engineer is obliged to:

) check the powers of interested persons or their representatives;

) provide the opportunity for interested parties or their representatives to familiarize themselves with the relevant draft boundary plan and provide the necessary explanations regarding its contents;

) indicate to interested persons or their representatives the location of the boundaries of land plots on the ground to be agreed (in case the location of the boundaries is agreed upon with their establishment on the ground).

3. The procedure for cadastral registration

.1 Grounds for carrying out cadastral registration

In accordance with Art. 16 of the Federal Law of July 24, 2007 No. 221-FZ “On the State Real Estate Cadastre”, the basis for conducting cadastral registration are: - registration of a real estate object - it is carried out in connection with the formation or creation of a real estate object; - deregistration of a property - the reason is the cessation of its existence; - change in the unique characteristics of the property, the list of which is given in clause 1 of Art. 7 of the Cadastre Law. To carry out cadastral registration, a basis provided by law is required, namely, an application for cadastral registration (in the form specified by law) and the relevant documents (Article 20 of the Cadastre Law):

) boundary plan (when registering a land plot, registering a part of a land plot or cadastral registration in connection with a change in the unique characteristics of a land plot), as well as a copy of a document confirming the resolution of a land dispute on agreeing on the location of the boundaries of a land plot in the manner established by land legislation (if in accordance with Article 38 of the Cadastre Law, the location of such boundaries is subject to mandatory approval and the boundary plan submitted in accordance with this paragraph does not contain information about the approval of the location of such boundaries);

) technical plan of a building, structure, premises or an unfinished construction project (when registering such a property, recording part of it or recording its changes, with the exception of cadastral registration in connection with changes specified in paragraph 15 or 16 of part 2 of Article 7 of the Cadastre Law information about such a property) or a copy of the permit to put a capital construction project into operation (when registering or accounting for changes in such a capital construction project, with the exception of cadastral registration in connection with changes specified in paragraph 15 or 16 of part 2 of article 7 of the Cadastre Law information about such a capital construction project) - a copy of the permit to put a capital construction project into operation or the necessary information contained in such a document is requested by the cadastral registration body in the order of interdepartmental information interaction in the federal executive body, the executive body of the constituent entity of the Russian Federation, the local body self-government or authorized organization that issued such a document;

) an inspection report confirming the termination of the existence of a property (when deregistering such a property);

) a document confirming the relevant powers of the applicant’s representative (if the application is submitted by the applicant’s representative);

) a copy of the document establishing or certifying the applicant’s right to the corresponding property (if changes in such a property are taken into account, the address of the copyright holder is taken into account or such property is deregistered and there is no information about the registered right of this applicant to such a property in the state real estate cadastre);

) a copy of the document establishing or certifying the applicant’s ownership of the property or confirming the established or established restriction (encumbrance) of real rights to such property in favor of the applicant (when taking into account part of such property, except if the applicant is the owner of such property and the state real estate cadastre contains information about the registered ownership of this applicant for such real estate);

) a copy of a document confirming, in accordance with federal law, that a land plot belongs to a certain category of land (during cadastral registration in connection with a change in the information about the land plot specified in paragraph 13 of part 2 of Article 7 of the Cadastre Law) - requested by the cadastral registration authority in the manner established by part 8 of article 15 of the Cadastre Law;

) a copy of a document confirming, in accordance with federal law, the established permitted use of a land plot (during cadastral registration of a land plot in connection with a change in the information specified in paragraph 14 of part 2 of Article 7 of the Cadastre Law) - requested by the cadastral registration authority in the manner established by part 8 Article 15 of this Federal Law;

) a copy of a document confirming, in accordance with federal law, a change in the purpose of a building or premises (during cadastral registration in connection with a change in the information about such a building or premises specified in paragraph 15 or 16 of part 2 of Article 7 of the Cadastre Law) - requested by the cadastral registration authority in the procedure established by part 8 of article 15 of the Cadastre Law;

) certified by the local government body of a settlement or urban district at the location of the land plot located in common shared ownership, or a notarized copy of the land surveying project, copies of decisions of the general meeting of participants in shared ownership of a land plot of agricultural land on approval of the specified project, list owners of the land plots being formed and the size of their shares in the right of common ownership of such land plots or information about the details of these documents if they were previously submitted to the cadastral registration authority (during cadastral registration of a land plot formed on account of a share or shares in the right of common ownership of land a plot of agricultural land on the basis of a decision of the general meeting of participants in shared ownership of this land plot);

) copies of documents confirming the approval of the land surveying project (for cadastral registration of a land plot allocated as a share or shares in the right of common ownership of a land plot of agricultural land in the absence of a decision of the general meeting of participants in shared ownership of this land plot to approve the project land surveying). The form of the application for cadastral registration is established by order of the Ministry of Justice of the Russian Federation. On February 20, 2008, Order No. 34 of the Russian Ministry of Justice “On approval of application forms for state cadastral registration of real estate” was issued.

This order, in accordance with Part 2 of Art. 16 of the Cadastre Law approved the following forms: applications for registration of a real estate property with the state cadastral register; applications for state cadastral registration of changes to the property; applications for removal of a property from the state cadastral register. Information about changes in the information provided for in Article 16 of the Cadastre Law (in particular, the address; about the persons in whose favor such restrictions are established; about the cadastral value of the property; information about forests, water bodies, the category of land to which the land plot is classified; permitted use ; the purpose of the building (non-residential building, residential building or apartment building); the purpose of the premises (residential premises, non-residential premises); the type of residential premises) can be received by the cadastral registration authority in the order of information interaction. In this case, cadastral registration is carried out on the basis of the received relevant documents. If, in the course of information interaction, documents have been received regarding changes in information regarding the address of the property, cadastral value, category of land to which the land plot is classified, its permitted use, purpose of the building (non-residential building, residential building or apartment building), as well as premises (residential premises, non-residential premises), then the cadastral registration authority, within no more than 5 working days from the date of completion of cadastral registration, sends a notification of the completed cadastral registration to the postal address and (or) email address of the copyright holder of the specified property.

3.2 Deadlines for cadastral registration

Unless otherwise established by Federal Law, registration of a real estate property, recording of changes to a real estate property, registration of a part of a real estate property or deregistration of a real estate property is carried out within no more than twenty working days from the date the cadastral registration authority receives the corresponding application for cadastral registration, and registration of the address of the copyright holder - within a period of no more than five working days from the date of receipt by the cadastral registration authority of the corresponding application for registration of the address of the copyright holder.

Cadastral registration on the basis of documents received by the cadastral registration body in the order of information interaction is carried out within a period of no more than thirty working days from the date of receipt of such documents.

The date of completion of cadastral registration is the day the cadastral registration authority entered into the state real estate cadastre:

) information about the cadastral number assigned to the corresponding property (when registering the property);

) new information about the relevant property (when taking into account changes in the property, taking into account part of the property or taking into account the address of the copyright holder);

) information about the termination of the existence of a real estate object (when deregistering a real estate object).

3 The procedure for the applicant to provide documents for cadastral registration. Composition of necessary documents for cadastral registration

Registration of a real estate property, recording of changes to a real estate property, recording of a part of a real estate property, recording of the address of the copyright holder or deregistration of a real estate property is carried out if the cadastral registration body makes a corresponding decision on the implementation of cadastral registration. When registering a property, recording changes to a property, registering part of a property, or deregistering a property, the cadastral registration authority, if an appropriate decision is made to carry out cadastral registration, starting from the working day following the day of expiration of the deadline, is obliged to issue to the applicant or to his representative personally against signature:

) cadastral passport of a real estate object (when registering such a real estate object);

) a cadastral extract about a property containing new information about such a property included in the state real estate cadastre during cadastral registration (taking into account changes in such a property);

) a cadastral extract about a property containing information entered into the state real estate cadastre during cadastral registration about the part of such a property that is subject to a restriction (encumbrance) of real rights (when taking into account a part of such a property);

) a cadastral extract about a real estate property containing information entered into the state real estate cadastre about the termination of the existence of such a real estate object (upon deregistration of such a real estate object).

If, within thirty working days from the date of expiration of the established period, the corresponding applicant or his representative did not appear at the cadastral registration authority and was not given it personally against receipt, the cadastral registration authority sends such a document by mail with a list of the contents and with a notification of delivery as indicated. in the application to the postal address no later than the working day following the thirty-first working day from the date of expiration of the specified period, or, if the application contains a request to send such a document by mail, no later than the working day following the first working day from the date of expiration of the specified period .

In case of completion of cadastral registration, the cadastral registration authority has the right to send by post, if the application for cadastral registration contains a corresponding request, or issue the specified document before the expiration of the period established by part.

The cadastral registration authority, simultaneously with the issuance (sending) of a document, issues (sends) additional copies of such a document if the application for cadastral registration contains a request for the issuance (sending) of these copies. The number of additional copies of such a document issued (sent) is determined in the manner established by the regulatory body in the field of cadastral relations.

3.4 Making a decision to conduct cadastral registration

Article 23. Decision to carry out cadastral registration

In accordance with the letter of the Federal Real Estate Cadastre Agency dated 03/04/2008 N VK/0876 “Explanations on the management of cadastral affairs” after registering the corresponding application for state cadastral registration; or on recording changes in the property (including accounting for part of the property and recording the address of the copyright holder of the property); or about deregistration of a property from the cadastral register; as well as on the correction of technical and cadastral errors in cadastral information and when entering cadastral information in accordance with documents received in the order of information interaction, an accounting file of the property is formed. The following documents are consistently included in the accounting file: - application and documents necessary for cadastral registration submitted by the applicant; - documents received in the order of information interaction; - inspection protocol and corresponding decision, prepared and executed in accordance with clauses 18, 32, 33 of the Procedure for maintaining the State Property Committee, approved by Order of the Ministry of Justice of Russia dated February 20, 2008 N 35; - documents aimed at eliminating the reasons for suspension of cadastral registration (clause 44 of the Procedure for maintaining the State Property Committee). In accordance with clause 31 of the Procedure for maintaining the State Property Committee, the submitted information about real estate objects and the documents containing them are checked by the cadastral registration authority to determine the absence of grounds for suspension and refusal to carry out cadastral registration. The results of the inspection are documented in a protocol, which reflects the decision made for each indicator of the inspection.

Explanations on the issue of drawing up a protocol for checking documents, making a decision on conducting cadastral registration in terms of preparing documents for the purpose of ensuring the maintenance of the state real estate cadastre are contained in the letter of Rosnedvizhimost dated 04.03.2008 N VK/0877. According to this letter, cadastral registration authorities, when performing cadastral procedures, must check the documents submitted for cadastral registration (based on clause 32 of the Procedure for maintaining the State Property Committee). Names of types of inspections carried out: - verification of the applicant’s credentials; - checking for completeness of documents; - checking documents according to the form and content of information required for cadastral registration; - checking for compliance with the information of the state real estate cadastre, including graphic display.

This paragraph establishes the period when the body maintaining the state cadastre must issue the applicant with documents specified by law. This period is calculated based on the following. In accordance with Part 1 of Art. 17 of this Law, registration of a real estate property, recording of changes to a real estate property, registration of a part of a real estate property, or deregistration of a real estate property are carried out within no more than 20 working days from the date the cadastral registration authority receives the corresponding application for cadastral registration. In this case, the registration of the address of the copyright holder must be carried out within no more than 5 working days from the date the cadastral registration authority receives the corresponding application to register the address of the copyright holder. The next day (provided that it is a working day), the cadastral registration authority is obliged to issue certain documents to the applicant or his representative personally against signature (based on what specific actions were performed): - when registering a property, its cadastral passport is issued; - when taking into account changes to a real estate property - a cadastral extract, which contains new information about it entered into the state real estate cadastre; - when accounting for a part of a real estate object - a cadastral extract containing information entered into the state real estate cadastre about the part of this real estate object that is subject to a restriction (encumbrance) of property rights; - when deregistering a property, a cadastral extract is also provided containing information entered into the state real estate cadastre about the termination of its existence.

The issuance of these documents can only be done if the applicant or a person representing his interests applies to the relevant cadastral registration authority with the intention of receiving them. In the event that these persons have not applied to the cadastral registration authority to receive the specified documents, the cadastral registration authority within 30 working days from the date of expiration of the twenty-day period for registering the property, recording changes in the property, registering part of the property or deregistration registration of the property or after the expiration of the five-day period provided for recording the address of the copyright holder (Part 1 of Article 17 of this Law), stores the documents specified in paragraph 1 of this article. If within this period neither the applicant nor his representative applied to the cadastral registration authority to receive these documents and they were not issued personally against receipt, the cadastral registration authority must send the relevant document by post with a list of the contents and a receipt. The postal address to which documents should be sent is indicated in the application. The dispatch period is no later than the working day following 31 working days from the date of expiration of the previously specified period. In addition, the commented article provides an additional option for sending the document to the applicant (or his representative). The specified document can be sent by mail, provided that the application indicated that the applicant requests this from the cadastral registration authority. Departure time is no later than the working day following the first working day from the date of expiration of the specified period.

The period established by this article may be different. The final document can be sent by post (when the application contains a corresponding request) or issued personally to the applicant (or his representative) before the expiration date specified in Part 1 of Art. 17. An essential condition for this is the completion of cadastral registration.

In accordance with paragraph 2 of the commented article, the cadastral registration authority, in the event of an appropriate decision to carry out cadastral registration, must issue to the applicant or his representative personally against receipt, depending on what specific actions were carried out by the cadastral registration authority, a cadastral passport of the property or a cadastral extract about property containing relevant information about it. Simultaneously with this document, the applicant must be issued (or sent, depending on the method of transfer of documents) additional copies of such a document. But this will be done only if, when submitting an application for cadastral registration, it contained a request for the issuance (sending) of these copies. The regulatory body in the field of cadastral relations must establish the number of additional copies of such a document to be issued (sent). In accordance with Order of the Ministry of Justice of the Russian Federation dated February 18, 2008 N 32 “On approval of forms of cadastral passports of a building, structure, unfinished construction site, premises, land plot” the number of copies of a cadastral passport of a land plot is determined by the applicant in the application for cadastral registration or in a request for information in quantities of no less than 2 and no more than 5 copies. All copies of one cadastral passport of a land plot bear one registration number. Order of the Ministry of Justice of the Russian Federation dated March 19, 2008 N 66 “On approval of the forms of a cadastral extract of a land plot and a cadastral plan of the territory” establishes that the number of copies of a cadastral extract of a land plot is determined by the applicant in an application for cadastral registration or in a request for information in an amount not more than 5 copies. In addition, it contains a similar requirement, according to which one registration number is affixed to all copies of one cadastral extract about a land plot.

3.5 Making a decision to suspend cadastral registration. Refusal to conduct cadastral registration. Correction of technical errors in the state real estate cadastre

The cadastral registration authority makes a decision to suspend the implementation of cadastral registration, if such suspension is allowed in accordance with the rules of this article.

Cadastral registration is suspended if:

) there are contradictions between the information about the property contained in the documents submitted by the applicant for the implementation of such cadastral registration, and the cadastral information about this property (except for cases where, when carrying out such cadastral registration, changes are made to the specified cadastral information);

) one of the boundaries of the land plot for cadastral registration of which an application has been submitted, in accordance with cadastral information, crosses one of the boundaries of another land plot (except for the case if the other land plot is a real estate property being converted);

) the location of the premises for cadastral registration of which an application has been submitted, in accordance with cadastral information, partially or completely coincides with the location of another premises (except for the case if the other premises is a converted real estate object);

) the documents necessary for cadastral registration have not been submitted.

When making a decision on suspension, the cadastral registration body must establish the possible causes of the circumstances that are the basis for making such a decision (in connection with a technical error made by the cadastral registration body when maintaining the state real estate cadastre, with an error made by the cadastral engineer when performing cadastral work in relation to a real estate object for whose cadastral registration an application has been submitted, or in relation to another real estate object whose cadastral registration was carried out earlier, and the like).

The decision to suspend must contain the reason for the suspension of cadastral registration with obligatory reference to the relevant provisions. If such a decision is made, it indicates the circumstances that served as the basis for its adoption, as well as the possible causes of these circumstances identified by the cadastral registration authority and recommendations for eliminating these causes.

The decision to suspend must be made no later than the deadline established by Federal Law.

The cadastral registration authority, no later than the working day following the day the decision on suspension was made, sends a notification of such a decision to the email address specified in the relevant application (if there is information about such an address in this application).

The cadastral registration authority is obliged to issue a decision on suspension to the relevant applicant or his representative personally against receipt or no later than the working day following the fifth working day from the date of expiration of the period established by law, send such a decision by mail with a list of the contents and with a notification of receipt as indicated. in the corresponding application to the postal address.

If the cause of the circumstances that served as the basis for the decision to suspend are errors in the state real estate cadastre, correction of such errors is carried out in the manner established by Article 28 of Federal Law No. 221.

The implementation of cadastral registration is suspended for a period until the circumstances that served as the basis for the decision to suspend are eliminated, but not more than for three months. The decision to suspend interrupts the running of the period. The part of such period that has expired before this decision is made is not counted towards the new period, which begins from the day the relevant circumstances are eliminated.

The decision to suspend can be appealed in court.

The cadastral registration authority makes a decision to refuse to carry out cadastral registration if such a decision is allowed in accordance with the rules of this article.

The cadastral registration authority makes a decision to refuse to carry out cadastral registration if:

) the property for cadastral registration of which an application has been submitted is not a real estate object, the cadastral registration of which is carried out in accordance with this Federal Law;

) the application for cadastral registration or the documents required for cadastral registration in form or content do not comply with the requirements of this Federal Law;

) the real estate object, for the cadastral registration of which an application has been submitted, is formed as a result of the transformation of the real estate object or real estate objects, and the division or allocation of a share in kind or any other action taken during such transformation with the converted real estate object or real estate objects being converted is not allowed in accordance with those established by federal law requirements;

) the real estate object, for cadastral registration of which an application has been submitted, is formed as a result of the transformation of the real estate object or real estate objects, and the information about such converted real estate object or such converted real estate objects entered into the state real estate cadastre is of a temporary nature;

) an improper person applied for cadastral registration;

) the period for suspension of cadastral registration has expired and the circumstances that served as the basis for the decision to suspend have not been eliminated.

The cadastral registration authority makes a decision to refuse to register a land plot also if:

) the size of such a land plot does not comply with the requirements for maximum (maximum or minimum) sizes of land plots established in accordance with land legislation;

) such a land plot is formed as a result of the transformation of a land plot and the size of the latter in connection with this transformation will not comply with the requirements established in accordance with land legislation for the maximum minimum sizes of land plots;

) such a land plot is formed as a result of the transformation of a land plot and, in connection with this transformation, access to the latter will not be provided (passage or passage from public land plots), including through the establishment of an easement;

) one of the boundaries of such a land plot crosses the border of a municipal entity and (or) the border of a populated area;

) such a land plot is formed as a result of the transformation of land plots and these converted land plots do not belong to the same category of land, with the exception of cases established by federal law.

During cadastral registration, in connection with a change in the area of a land plot and (or) a change in the description of the location of its boundaries, the cadastral registration authority makes a decision to refuse to carry out this cadastral registration, also if such a change is not due to the transformation of the land plot or clarification of its boundaries.

During cadastral registration in connection with clarification of the boundaries of a land plot, the cadastral registration authority makes a decision to refuse to carry out this cadastral registration also in the event that:

) as a result of this cadastral registration, the area of this land plot, determined taking into account the requirements established in accordance with this Federal Law, will be greater than the area, information about which regarding this land plot is contained in the state real estate cadastre, by an amount greater than the maximum minimum size of the land plot, established in accordance with land legislation for lands of the corresponding intended purpose and permitted use, or, if such a size is not established, by an amount of more than ten percent of the area, information about which regarding this land plot is contained in the state real estate cadastre;

) when clarifying the specified boundaries, the procedure established by this Federal Law for coordinating the location of the boundaries of land plots is violated or the location of the specified boundaries in accordance with this Federal Law is not considered agreed upon, except in cases where the specified boundaries are recognized as specified in the procedure for resolving a land dispute.

The cadastral registration authority makes a decision to refuse to deregister a land plot also if such a land plot is not being converted and is not subject to deregistration in accordance with the specifics of cadastral registration during the transformation of real estate objects established by Article 24 of the Federal Law of the Civil Code of Ukraine.

The cadastral registration authority makes a decision to refuse to register a premises also if such premises are not isolated or separated from other premises in the building or structure.

The decision to refuse to carry out cadastral registration must contain the reason for the refusal with a mandatory reference to the provisions of this article that served as the basis for such a decision, and an indication of the violations committed.

The decision to refuse to carry out cadastral registration must be made no later than the deadline established by Part 1 of Article 17 of Federal Law No. 221.

The cadastral registration authority, no later than the working day following the day the decision to refuse to carry out cadastral registration is made, sends a notification of such a decision to the email address specified in the relevant application (if there is information about such an address in this application).

The cadastral registration authority is obliged to issue a decision to refuse to carry out cadastral registration to the relevant applicant or his representative in person against signature or no later than the working day following the fifth working day from the date of expiration of the period established by Part 1 of Article 17 of Federal Law No. 221, send such a decision by post mailing with a description of the contents and a notification of delivery to the postal address specified in the corresponding application.

If a decision to refuse to carry out cadastral registration is made on the basis of paragraph 2 of part 2 of Article 27, simultaneously with such a decision the document submitted with the relevant application and confirming the payment of the state duty for cadastral registration must be returned. This document can be submitted again with an application for cadastral registration of the relevant property after finalizing the documents in accordance with the recommendations of the cadastral registration authority.

The decision to refuse to carry out cadastral registration may be appealed in court.

Errors in the state real estate cadastre are:

) a technical error (a clerical error, a typo, a grammatical or arithmetic error, or a similar error) made by the cadastral registration authority when maintaining the state real estate cadastre and leading to a discrepancy between the information entered into the state real estate cadastre and the information in the documents on the basis of which the information was entered into the state cadastre real estate (hereinafter referred to as a technical error in the information);

) an error reproduced in the state real estate cadastre in the document on the basis of which information was entered into the state real estate cadastre (hereinafter referred to as a cadastral error in information).

A technical error in the information is subject to correction based on a decision of the cadastral registration body if this body detects such an error or the cadastral registration body receives from any person an application for such an error in the form established by the regulatory body in the field of cadastral relations, or on the basis of an entered into the legal force of a court decision to correct such an error. A technical error in the information is subject to correction within no more than five working days from the date of its discovery by the cadastral registration authority, the receipt by the cadastral registration authority of such an application or the specified court decision. If such an application is received, the cadastral registration body is obliged to check the information contained in it and eliminate the corresponding technical error or, no later than the working day following the day of expiration of the period established by this part, make a decision to reject such an application with justification of the reasons for the rejection, sending this decision by mail mailing with an inventory of the contents and with a notification of delivery to the person who submitted such an application at the postal address specified in the application. This decision can be appealed in court.

The decision of the cadastral registration body to correct a technical error in the information must contain the date of discovery of such an error, its description with the justification for classifying the relevant information entered into the state real estate cadastre as erroneous, as well as an indication of what the correction of such an error consists of. In case of correction of a technical error in information about a real estate property, the cadastral registration authority, no later than the working day following the day the decision is made to correct such an error, sends this decision to the postal address of the copyright holder of the specified real estate object or, if there is no information about this address in the state real estate cadastre , at the postal address of the copyright holder in accordance with the cadastral information provided for in paragraph 8 of part 2 of article 7 of this Federal Law (if such information is available). The decision to correct a technical error in the information may be appealed in court.

A cadastral error in the information is subject to correction in the manner established to take into account changes in the relevant property (if the documents that contain such an error and on the basis of which the information was entered into the state real estate cadastre are documents submitted in accordance with Article 22 of Federal Law No. 221) , or in the order of information interaction (if the documents that contain such an error and on the basis of which information is entered into the state real estate cadastre are documents received by the cadastral registration authority in the order of information interaction) or on the basis of a court decision that has entered into legal force to correct such errors.

The cadastral registration body, when a cadastral error is detected in the information, makes a decision on the need to eliminate such an error, which must contain the date of discovery of such an error, its description with the justification for classifying the relevant information as erroneous, as well as an indication of the need to correct such an error. The cadastral registration authority, no later than the working day following the day this decision was made, forwards it to interested parties or to the relevant authorities to correct such an error in the prescribed manner. The court, at the request of any person or any body, including the cadastral registration authority, has the right to make a decision to correct a cadastral error in the information.

The cadastral registration authority, within no more than five working days from the date of correction of a technical error in the information or a cadastral error in the information, submits documents on such correction to state bodies determined by the Government of the Russian Federation. The form of such documents and the composition of the information contained in them are established by the Government of the Russian Federation.

4. Preparation of a cadastral extract, cadastral passport of the land plot and cadastral plan of the territory

These requirements establish the composition of the information:

cadastral extract of the land plot containing the requested information from the state real estate cadastre;

a cadastral passport of a land plot, prepared to provide, in accordance with Federal Law No. 221-FZ “On the State Real Estate Cadastre,” information from the state real estate cadastre necessary for state registration of rights;

cadastral plan of the territory.

A cadastral extract of a land plot, a cadastral passport of a land plot, a cadastral plan of the territory are documents consisting of sections designed to reflect certain groups of characteristics of the registered land plots.

The production of excerpts from the cadastre is carried out by typewriting (including using computer technology) or a combined method. With a combined manufacturing method, it is allowed to enter individual words, symbols, etc. in handwriting. ink, paste or ink.

The cadastral extract and the cadastral plan of the territory are produced in one copy. The number of copies of the cadastral passport of the land plot to be produced is determined by the applicant in the request for information in the amount of no less than two and no more than 5 copies.

If the information entered into the cadastre excerpt section does not fit on one sheet, it is allowed to place it on several sheets of the same section. The numbering of sheets of excerpts from the cadastre is carried out in order within the entire document. Sheet numbers are indicated in Arabic numerals.

Sections of excerpts from the cadastre, intended to reflect information about a land plot in text form, are drawn up on standard sheets of A4 paper. To design sections intended to reflect information about a land plot in graphic form, it is allowed to use standard sheets of larger format paper. Sections of prepared excerpts from the cadastre are not bound.

Filling out sections of cadastre extracts is carried out in compliance with the following general rules:

information is entered in full accordance with the information reflected in the State Tax Code, except for the cases established in this document;

in empty lines the sign “ ―"(dash);

Each section of the excerpt from the cadastre is certified by the signature of an official and certified by the seal of the body that carried out the cadastral registration.

The signature certifying the information in the cadastral extract about the land plot is made in blue ink (paste).

At the top of the form sections of excerpts from the cadastre of each type it is indicated:

name of the type of document “CADASTRAL EXTRACT OF A LAND (extract from the state real estate cadastre)”, “CADASTRAL PASSPORT OF A LAND (extract from the state real estate cadastre)” or “CADASTRAL PLAN OF THE TERRITORY (extract from the state real estate cadastre)”;

date of registration and registration number of the excerpt from the cadastre in accordance with the document intended for registration of issued extracts from the GKN (Book of records of issued information);

the cadastral number of the land plot in detail “1” of the cadastral extract of the land plot and the cadastral passport of the land plot or the cadastral number of the cadastral quarter in detail “1” of the cadastral plan of the territory;

sheet number in the attribute “2”.

The registration number is formed from the Book number of the issued information and the document number (the serial number of the entry in the Book), separated by the sign “-” (short dash). All copies of one excerpt from the cadastre are registered in the Book of Accounting of Issued Information under one number. In addition to what is listed above, at the top of the form of the first section of each type of excerpts from the cadastre, the full name of the cadastral registration body that carries out state cadastral registration of land plots in the territory of a certain cadastral district is indicated.

If technically possible, information from the cadastral extract and cadastral plan of the territory can be prepared electronically and certified with an electronic digital signature of an authorized official of the cadastral registration body. In the absence of such a possibility, information on individual sections of the specified excerpts from the cadastre can be prepared electronically on a machine-readable medium, for example, a CD-R disk. In this case, the registration of the first section of the cadastral extract or the title page of the cadastral plan of the territory is carried out only on paper.

Requirements for the content of information in a cadastral extract about a land plot. The cadastral extract of a land plot (hereinafter - CV) includes sections CV.1 - CV.6, while sections CV.3, CV.4, CV.6 are drawn up only if the relevant information is available in the state real estate cadastre. The composition and purpose of the CV sections are presented in Table 1.

Table 1 - “Composition and purpose of sections of the CV”

Section name Purpose of section Form number General information Reflection in text form of general information about the land plot KV.1 Plan (drawing, diagram) of the boundaries of the land plot Reflection in graphic form of information about the boundaries of the land plot and its parts KV.2 Information about parts and encumbrances of the land plot Reflection in text form of information about parts and encumbrances (restrictions on rights) of a land plot KV.3 Plan (drawing, diagram) of the boundaries of a part of a land plot Reflection in graphical form of information about the boundaries of parts of land. plot not reflected in the section “Plan of the boundaries of the land plot” (B.2), as well as the boundaries of land plots included in a single land use KV.4 Description of the location of the boundaries of the land plot Reflection in text form of information about the boundaries of the land plot and its parts, information about the numbers of adjacent plots, as well as to describe the landmarks of the area along which the boundaries of the plot pass. 5 Description of the turning points of the boundaries of the land plot. Reflection in text form of information about the nodal and turning points of the land boundaries. plot and its parts. KV.6

If a request is received for information on the cadastral value of a land plot, only section KV.1 is included in the cadastral extract, containing information about the cadastral number, location, category, permitted use, area, cadastral value and specific indicator of cadastral value (if any) of the land plot.

If a request is received for the provision of State Property Committee information necessary for carrying out cadastral work, the cadastral extract includes all sections intended to display information about the land plot available in the State Property Committee.

Rules for filling out the “General Information” section of the cadastral extract of a land plot (KV.1)

In detail “3” the total number of sheets of the cadastral extract about the land plot is entered.

In detail “6” the date of entry of the cadastral number of the land plot into the state real estate cadastre is entered. The date is entered as follows:

The details “12” - “13” contain the latest data on the date of entry on the value of the cadastral value of the land plot and the specific indicator of the cadastral value.

Details “14” contain information about the coordinate system used in maintaining the state real estate cadastre in the territory of the corresponding cadastral quarter.

For land plots, information about the rights to which are certified in the manner that was in force before the entry into force of the Federal Law of July 21, 1997 No. 122-FZ “On State Registration of Rights to Real Estate and Transactions with It,” additionally indicate the details of the documents on on the basis of which the relevant information was entered into the State Property Committee.

In the case of registration of sections of the cadastral extract in electronic form on a machine-readable medium, in line “16” of section KV.1 it is additionally indicated: “The information in sections KV.2 - KV.6 is provided on a machine-readable medium (CD disk).” The following are the names of the files, their sizes and creation dates. In addition, the registration number of the extract is indicated with a marker on a machine-readable medium. The machine-readable medium is placed in a file folder or in a special envelope and attached to section KV.1.

Information about the nature of the GKN information is entered in detail “17”:

if the right to a land plot is not registered, it is indicated - “Information about the land plot is temporary;

if the land plot has ceased to exist, it is indicated - “The land plot has been removed from the cadastral register.”

Props “18” (“18.1”, “18.2”, “18.3”) is not filled in.

Rules for filling out the section “Plan (drawing, diagram) of the boundaries of the land plot” (KV.2)

In the detail field “3”, a plan (drawing, diagram) of the boundaries of the described land plot is drawn based on the information contained in the State Property Code in graphical form. It is allowed to display in the attribute field “3” the boundaries of the recorded parts of the land plot, if they do not overlap each other and do not overload the plan. In this case, section KV.4 is not completed.

In the case of providing information about land plots from agricultural lands for cadastral work, which were the sources of formation of new land plots as a result of allocation on account of the land share, in the attribute field “3” the boundaries of the land plot are displayed while simultaneously displaying the boundaries of the newly formed land plots, information about which is temporary.

When drawing up a cadastral extract about a single land use (composite land plot), an overview (situational) plan (drawing, diagram) of a single land use is drawn in the field of attribute “3”.

Rules for filling out the section “Information on parts and encumbrances of the land plot” (KV.3).

―"(dash).

When preparing a cadastral extract about a land plot that represents a single land use, information about land plots included in a single land use is entered into table “3”. In this case, the sign “ ―"(dash).

Column “4” of Table “3” contains the characteristics of the parts and encumbrances of the land plot entered into the State Property Code.

Rules for filling out the section “Plan (drawing, diagram) of the boundaries of a part of the land plot” (KV.4).

In the attribute field “3”, a plan (drawing, diagram) of the boundaries of a part of the land plot is drawn, and the registration number of this part of the land plot is written in a special line, if the boundaries of such a part are not displayed in section KV.2.

When drawing up a cadastral extract on a single land use (composite land plot), in the field of attribute “3”, plans of the boundaries of land plots included in the single land use are drawn. In this case, the cadastral numbers of such plots are recorded in a special line. It is allowed to display several land plots included in a single land use on one sheet.

Rules for filling out the section “Description of the location of the boundaries of the land plot” (KV.5)

Column “1” of table “3” is used to indicate the serial number of the record.

In columns “2” - “8” of table “3” information is entered in accordance with the column headings, while:

in columns “2” and “3” the number of the starting and ending points of the part of the border of the land plot and its parts is recorded; -

in column “4” the directional angle is indicated in the format of degrees, minutes and seconds or in the format of degrees and minutes, rounded to 0.1 minutes;

Column “5” indicates the horizontal distance, rounded to 0.01 m;

Column “6” provides a description of the terrain object that fixes the position of part of the border on the ground;

Column “7” indicates the numbers of adjacent land plots. If the adjacent land plot is located in another cadastral quarter or the adjacent land plot represents a single land use, then the full cadastral number of such land plot is indicated;

in column “8” the addresses of the legal holders of adjacent land plots are indicated in the order in which they are indicated in column “7”. If the State Property Committee does not contain information about the contact address of the owner of the adjacent land plot, an entry is made - “no address”.

Rules for filling out the section “Description of turning points of the boundaries of a land plot” (KV.6)

In columns “1” - “5” of table “3” the available information of the State Tax Committee is entered in accordance with the name of the column, while:

in columns “2” and “3” the values of the X and Y coordinates are entered, respectively, rounded to 0.01 m;

in column “4” a description of the boundary sign is entered in the case of fixing a characteristic point of the border with a long-term boundary sign;

in column “5” the accuracy of determining the position of the boundary sign (characteristic point) of the border of the land plot (mean square error) is entered.

Requirements for the content of information in a cadastral passport of a land plot

The cadastral passport of a land plot (hereinafter - KPZU) includes sections B.1 - B.4, while sections B.3 and B.4 are issued only if the relevant information is available in the state real estate cadastre (GKN). The composition and purpose of the KPZU sections are presented in Table 2.

Table 2 - “Composition and purpose of sections of the KPZU”

Section name Purpose of the section Form number General information Reflection in text form of general information about the land plot B.1 Plan (drawing, diagram) of the boundaries of the land plot Reflection in graphic form of information about the boundaries of the land plot and its parts B. 2 Information about parts and encumbrances of the land plot * Reflection in text form of information about parts and encumbrances (restrictions on rights) of the land plot B.3 Plan (drawing, diagram) of the boundaries of part of the land plot Reflection in graphic form of information about the boundaries of parts of the land plot not reflected in the section “Plan of the boundaries of the land plot” (B.2), as well as the boundaries of the land plots included in single land use B.4

Rules for filling out the “General Information” section (B.1) of the cadastral passport of a land plot.

The total number of KPZU sheets is entered in the “3” requisite.

In detail “4” the previously assigned state registration number of the land plot or the numbers of all land plots from which this plot is formed is entered.

In the case of drawing up a cadastral extract for a land plot that represents a single land use, the entry “single land use” is entered in detail “5”.

In detail “6” the date of entry of the cadastral number of the land plot into the state real estate cadastre (hereinafter referred to as the State Real Estate Cadastre) is entered.

The date is entered as follows:

the date of the decision to register the land plot - in relation to land plots registered according to the rules of the Cadastre Law;

date of opening of the subsection - in relation to land plots registered according to the rules of the Federal Law of January 2, 2000 No. 28-FZ “On the State Land Cadastre” before the Law on the Cadastre came into force;

date of approval of the document confirming the right to a land plot in relation to land plots registered before the entry into force of the Federal Law of January 2, 2000 No. 28-FZ “On the State Land Cadastre”.

The date is indicated in the format “day.month.year”, for example, “01/20/2008”.

In detail “7” the address of the land plot is entered, and in its absence, a description of the location.

In detail “8” information about the category of land established for a given land plot is entered by writing the word “all” in the corresponding cell of line “8.2”.

In detail “9” information is entered about the permitted use of this land plot in accordance with the entries in the State Property Committee.

In detail “10” the actual use of the land plot is entered if such information is available in the state real estate cadastre.

In detail “11” the value of the area of the land plot is entered, indicating the permissible error in its determination. The error in determining the area is entered, if available, in the State Property Committee.

In details “12” - “13” the latest data on the date of entry on the value of the cadastral value of the land plot and the specific indicator of the cadastral value are entered.

Details “14”, “17” are not filled in.

The information available in the State Property Committee on the rights to the land plot (type of right, legal holder, share in the right) is entered into detail “15”.

If this detail does not fit the entire list of copyright holders (for example, in case of common ownership), then the latter is drawn up on a separate sheet, and the type of right and the text “the list of copyright holders is attached on sheet No. ___” are written in the detail. This sheet is certified by the signature of an official.

Special marks are entered in the “16” property.

If there is no information about the boundaries of the land plot:

“The boundary of the land plot is not established in accordance with the requirements of land legislation.”

Additional information necessary for registering rights to newly formed and changed land plots is entered into detail “18”.

The details “18.1” include the numbers of all land plots formed as a result of cadastral work (merger, division, allotment, redistribution).

The requisite “18.2” contains the cadastral number of the land plot, the characteristics of which have changed as a result of the allocation of land plots as a share in the right.

The cadastral numbers of land plots that will be removed from the cadastral register after registration of rights to the newly formed land plots specified in the requisite “18.1” are entered in the “18.3” detail.

In the attribute field “3”, a plan (drawing, diagram) of the boundaries of the described land plot is drawn based on information about the land plot contained in the State Property Code in graphic form.

It is allowed to display in the attribute field “3” the boundaries of the recorded parts of the land plot, if they do not overlap each other and do not overload the plan. In this case, section B.4. is not issued.

On the plan (drawing, diagram) of the boundaries of the land plot, terrain objects necessary to understand the location of the boundaries of the land plot can be plotted as a topographic basis.

A plan (drawing, diagram) of the boundaries of a land plot is prepared in any available way - handwritten or automated, including using copying equipment. To ensure readability in the case of applying reduction scales, it is allowed, when preparing a plan (drawing, diagram), to show individual fragments of the boundaries of the described land plot and its parts in a simplified manner (without showing individual, closely located turning points of the boundaries). In this case, in the attribute field “3” on a separate callout, the boundary element of the described land plot (part) is shown on a larger scale.

When issuing a cadastral passport for a single land use (composite land plot), an overview (situational) plan (drawing, diagram) of a single land use is drawn in the field of attribute “3”.

Conventional signs and numerical scale are entered into the “4” property.

When drawing up a plan (drawing, diagram) of the boundaries of a land plot, conventional signs are used, adopted by Rosnedvizhimost to display information about land plots in graphic form. If this detail does not fit the entire list of symbols, then the latter is drawn up on a separate sheet of this form.

Rules for filling out the section “Information on parts and encumbrances of the land plot” (B.3).

In column “1” of table “3” the serial number of the record is entered.

Column “2” of Table “3” indicates the registration number of the part of the land plot on which an encumbrance (limitation of right) has been established or within which a building, structure, or unfinished construction project is located.

If an encumbrance is established on the entire land plot, the sign “ ―"(dash).

When drawing up a cadastral passport for a land plot representing a single land use, information about land plots included in a single land use is entered into table “3”. In this case, the sign “ ―"(dash).

Column “3” of Table “3” indicates the area of part of the land plot. If the encumbrance is established on the entire land plot, the word “entire” is written in the column.

In column “4” of table “3” the characteristics of the parts and encumbrances of the land plot taken into account in the State Property Code are entered.

When preparing a cadastral extract for a land plot that represents a single land use, the cadastral number of a separate (conditional) plot included in the single land use is entered in column “4” of table “3”.

If the relevant information is available in the State Tax Code, column “5” of table “3” contains information about the persons in whose favor encumbrances (restrictions on rights) have been established.

Rules for filling out the section “Plan (drawing, diagram) of the boundaries of a part of the land plot” (B.4).

When drawing up a cadastral passport for a single land use (composite land plot), in the field of attribute “3”, plans of the boundaries of land plots included in the single land use are drawn. In this case, the cadastral numbers of such plots are recorded in a special line. It is allowed to display several land plots included in a single land use on one sheet.

The numerical scale is entered in the attribute “4”.

Requirements for drawing up a cadastral plan of the territory

The cadastral plan of the territory is a thematic plan of the cadastral quarter or other territory specified in the corresponding request within the cadastral quarter (hereinafter referred to as the territory of the cadastral quarter), which is drawn up on a cartographic basis (if available) and on which the requested information is reproduced in text and graphic form.

The cadastral plan of the territory reflects information about registered land plots, including information from the State Property Committee on which is temporary. The cadastral plan of the territory does not reflect information about land plots that have ceased to exist.

The KPT is a single document consisting of sections designed to reflect certain groups of requested information of the Civil Code, and includes sections KPT.1 - KPT.5. The composition and purpose of the CBT sections used are presented in Table 3.

Table 3 - “Composition and purpose of CBT sections”

Section namePurpose of sectionForm numberTitle pageReflection of general information about the cadastral quarter, the composition of the document and the method of presentation. information on the cadastral plan of the territory (on paper or electronic media) KPT.1 General information about land plots in the cadastral quarterRepresentation in text form of general information about land plots located within the cadastral quarter KPT.2 Layout of plan sheets Representation in graphic form of information about dividing the image of the graphic part of the KPT on sheets (if the graphic part of the KPT is placed on several sheets). KPT.3 Plan (drawing, diagram) of the land plots located in the cadast. quarterRepresentation in graphic form of information about the boundaries of land plots and their serial numbers in the section “General information about land plots in the cadastral quarter” KPT.4 Information about the points of the reference boundary networkRepresentation in text form of information about the points of the reference boundary network of the cadastre. quarterKPT.5

Rules for filling out the “Title Page” section (KPT.1).

The total number of CPT sheets is entered in detail “3”. In detail “4” the area of the cadastral quarter is entered, calculated on the basis of the duty cadastral map. The area of the cadastral quarter is indicated in hectares. Information on the area of the cadastral quarter is for reference only.

In detail “5”, in accordance with the names of the columns, information is entered on the composition of the document, the number of sheets in the case of drawing up the cadastral plan of the territory on paper, the names of the files and their size in the case of drawing up individual sections of the CPT in electronic form on machine-readable media.

Special notes are entered in detail “6”; if necessary, this line can contain a description of the boundaries of the cadastral quarter in accordance with the act of the cadastral registration authority on the establishment (change) of cadastral division units, as well as the details of such an act.

Rules for filling out the section “General information about land plots in the cadastral quarter” (KPT.2).

In detail “3”, in accordance with the names of the columns, general information about land plots located within the cadastral quarter is entered:

in column 1 the serial number of the record about the land plot in the cadastral quarter is entered;

in column 2 the numbers of land plots in the cadastral quarter are entered, for example “:5”; if within a given cadastral quarter there are land plots that are part of a single land use, the cadastral numbers of all such land plots are entered in column “2”;

in column 3 the location (address) of the land plot is entered;

Column 4 contains information about the category of land plot available in the state real estate cadastre;

Column 5 contains information about the permitted use of this land plot;

in column 6 the value of the area of the land plot in sq.m is entered; if there is information in the State Property Committee on establishing or clarifying information about the boundaries and area of a land plot, the cadastral plan of the territory indicates the value of the updated area of the land plot, indicating the permissible error in its determination;

Column 7 contains the latest data on the cadastral value of the land plot in thousand rubles;

Column 8 contains information about the rights to registered land plots, while information about the right holders is not indicated, and in relation to land plots, information about which is temporary, the entry “information on registration of rights was not received” is entered;

Column 8 contains information about registered encumbrances on the land plot.

Rules for filling out the section “Layout of plan sheets” (KPT.3)

In the attribute field “3”, a plan (drawing, diagram) of the boundaries of the described cadastral quarter is displayed based on the information contained in the State Property Code in graphical form. The layout of the plan sheets is made in any available way - handwritten, automated, combined.

When drawing up the layout of plan sheets, conventional signs are used that are adopted to display information about land plots in graphic form, which are given in detail “4”.

Rules for filling out the section “Plan (drawing, diagram) of land plots located in the cadastral quarter” (KPT.4).

The attribute field “3” displays a plan (drawing, diagram) of the boundaries of land plots,

If necessary and the relevant information is available, terrain objects necessary to understand the location of the boundaries of the land plots can be plotted on the plan (drawing, diagram) of the boundaries of the land plot as a topographic basis.

When displaying the boundaries of land plots in detail “3” of the plan (drawing, diagram), land plots on the plan are identified by a serial number in accordance with the entry about the corresponding land plot in column 1 of detail 3 of section KPT.2 “General information about land plots in the cadastral quarter” either the number of the land plot in the cadastral quarter or the cadastral number of the land plot.

When drawing up a plan (drawing, diagram) of the boundaries of a land plot, conventional signs are used that are adopted to display information about land plots in graphic form.

Conventional signs and numerical scale are entered into the “4” property.

When drawing up a plan (drawing, diagram) of the boundaries of land plots, conventional signs adopted by Rosnedvizhimost are used to display information about land plots in graphic form. If this detail does not fit the entire list of symbols, then the latter is drawn up on a separate sheet of this form.

Rules for filling out the section “Information about points of the reference boundary network”

In detail “3”, in accordance with the names of the columns, information about the points of the reference boundary network of the cadastral quarter is entered:

in column 1. - indicate the number with which the point of the reference boundary network is indicated on the plan of the cadastral quarter;

column 2. - contains information about the name and (or) number of the point of the reference boundary network, as well as the type of point;

Column 3. - contains information about the class of the point of the reference boundary network (filled in if such information is available in the catalog of coordinates, and otherwise a dash “-” is added);

columns 4 and 5. - contain information about the flat rectangular coordinates (X,Y) of the point of the reference boundary network, expressed in meters with two decimal places.

5. The procedure for providing, at the request of interested parties, information included in the State Property Committee

Public information included in the state real estate cadastre is provided by the cadastral registration authority at the request of any person.

Information entered into the state real estate cadastre is provided in the form of:

copies of the document on the basis of which information about the property was entered into the state real estate cadastre;

cadastral extract about the property;

cadastral passport of the property;

cadastral plan of the territory;

cadastral certificate.

A cadastral extract about a property is an extract from the state real estate cadastre containing the requested information about the property. If, in accordance with the cadastral information, the real estate object about which information is requested has ceased to exist, any cadastral extract about such an object, along with the requested information, must contain cadastral information about the termination of the existence of such an object.

The cadastral passport of a real estate property is an extract from the state real estate cadastre, containing the information about the property necessary for state registration of rights to real estate and transactions with it.

The cadastral plan of the territory is a thematic plan of the cadastral quarter or other territory specified in the corresponding request within the cadastral quarter, which is compiled on a cartographic basis and on which the requested information is reproduced in graphical and text form.

The forms of these documents and the requirements for the composition of the information of such documents, as well as the methods and forms of their provision, including in electronic form, are established by the regulatory body in the field of cadastral relations.

Information entered into the state real estate cadastre, with the exception of information provided in the form of cadastral plans of territories or cadastral certificates, is provided within no more than ten working days from the date the cadastral registration authority receives the corresponding request. The period for providing the requested information in the form of cadastral plans of territories or cadastral certificates cannot exceed fifteen or thirty working days from the date the cadastral registration authority receives the corresponding request.

The decision to refuse to provide the requested information may be appealed in court.

For the provision of cadastral information, a state duty is paid in accordance with the legislation of the Russian Federation on taxes and fees.

6. Information interaction when maintaining the State Control Committee

The cadastral registration body, within a period of no more than five working days from the date of completion of cadastral registration, submits documents on this registration to state bodies determined by the Government of the Russian Federation. Moreover, if, in accordance with cadastral information, the right to a property is registered, the cadastral registration authority, within no more than three working days from the date of completion of cadastral registration, which was carried out in connection with a change in information about such a property (if the change in this information requires the introduction of appropriate changes to subsection I of the Unified State Register of Rights to Real Estate and Transactions with It) or the termination of the existence of such a property, submits a document on the said registration to the body that carries out state registration of rights to real estate and transactions with it. The composition of the information contained in the documents submitted by the cadastral registration authority in accordance with this part is established by the Government of the Russian Federation.

The cadastral registration body regularly provides, free of charge, to the executive authorities of the constituent entities of the Russian Federation, local governments, cadastral information in the form of cadastral maps, respectively, of the territories of the constituent entities of the Russian Federation and the territories of municipalities in the manner determined by the agreements on information interaction concluded between the cadastral registration authority and the specified organs.

The body carrying out state registration of rights to real estate and transactions with it, within a period of no more than five working days from the date of state registration of the right to real estate and transactions with it, submits to the cadastral registration body a document containing information:

about the registered right to such a piece of real estate and about the owners or possessor of this right to the extent of the relevant information entered into the Unified State Register of Rights to Real Estate and Transactions with It (if the right to such a piece of real estate is registered);

on the registered restriction (encumbrance) of the real right to such real estate and on the persons in whose favor this restriction (encumbrance) is established, to the extent of the relevant information entered into the Unified State Register of Rights to Real Estate and Transactions with It (if the restriction (encumbrance) is registered ) real right to such real estate).

A state authority or local government body that has approved the results of the state cadastral valuation of real estate in accordance with the procedure established by the legislation of the Russian Federation, within a period of no more than five working days from the date of approval of such results, submits to the cadastral registration body a copy of the act of approval of such results.

The federal executive body exercising the functions of developing and implementing state policy and legal regulation in the field of international relations of the Russian Federation, within a period of no more than ten working days from the date of entry into force of the relevant acts on establishing or changing the course of the State Border of the Russian Federation, represents to the cadastral registration authority a document containing the information necessary for entering into the state real estate cadastre about such an establishment or change.

A state authority or local government body, within a period of no more than ten working days from the date of entry into force of a legal act that is adopted by such a body within its competence and which establishes or changes the border between the constituent entities of the Russian Federation, the border of a municipality, the border of a populated area, or a territorial zone or a zone with special conditions for the use of territories is established or changed, or the establishment of such a zone is cancelled, submits to the cadastral registration body a document containing the information necessary for inclusion in the state real estate cadastre.

The body maintaining the state forest register, or the body maintaining the state water register, within a period of no more than five working days from the date of entering information about forests and water bodies into such registers, respectively, submits documents on these natural objects to the cadastral registration body. The composition of information about these natural objects contained in these documents is established by the Government of the Russian Federation.

The specifics of ensuring the order of information interaction when maintaining the state real estate cadastre, the forms of documents submitted during such interaction are established by the Government of the Russian Federation.

Conclusion

As a result of completing the course work “Automated systems of the state real estate cadastre” I studied:

principles of maintaining the state real estate cadastre;

activities of a cadastral engineer, cadastral registration procedure;

preparation and issuance of a cadastral extract, cadastral passport of a land plot and cadastral plan of the territory;

the procedure for providing information entered into the state real estate cadastre at the request of interested parties;

information interaction in maintaining the state land cadastre.

In general, the process of completing the course work gave basic concepts about the structure of documents, the need to maintain a state real estate cadastre, and in practical classes skills were acquired about the procedure and rules for filling out forms.