Copyright © Panorama Group 1991 - 2025
In Pridnestrovie, at the President's instruction, the
The absence of a centralized information system containing information about land plots of all categories hindered the effective management of land resources. The creation of the state information system "Electronic Land Cadastre" helped to address this issue. After filling the system with necessary information, it will allow government authorities, as well as citizens and legal entities, to promptly use cadastral information for the purpose of managing land resources, protecting lands, establishing land payments, forming the land market, protecting the rights of landowners, land users, tenants, and other rights holders.
The working group, led by the First Deputy Prime Minister of the Government Sergey Obolonik, was developing a targeted program for the implementation of an automated state land cadastre. It included representatives from the
The geoinformation platform "Panorama" allows for collaborative use of the desktop client
For initial data input into the system, the GIS "Panorama" is used, which has an extensive toolkit for working with land cadastre documentation, preparing plans, drawings, schemes, acts, etc. It allows for attaching necessary documents, customizing the list of information to be entered. Additionally, GIS "Panorama" enables the creation of a variety of thematic maps essential for land cadastre management.
In late 2023, a completed electronic product was presented on the Minсifra platform. The work was evaluated by a government commission for the acceptance of the GIS led by Vice Prime Minister Victor Taranov. Members of the government commission for the acceptance of the GIS "State Land Cadastre" highly praised the results of the work of the Ministry of Digital Development, the Ministry of Agriculture, and other entities involved in the preparation, presentation, and content filling of the GIS.
Currently, active data filling of the GIS and digitization of cadastral records are underway. According to the Ministry of Agriculture, information on 33.7 thousand objects that require editing and transfer to the map of the republic is stored electronically. In addition, primarily concerning lands in populated areas, there is information on 3 thousand objects per district in the archives of state administrations in paper form. Simultaneously, work is being done to populate the system with information on primary formations of land plots and current changes in land cadastral documentation details. Currently, the GIS "Electronic Land Cadastre" is being updated with information on the natural, economic, and legal status of lands.
Specialists from KB "Panorama" have prepared a video tutorial on working with the task
Specialists from KB "Panorama" have created a video tutorial on the capabilities of
The discussed task is designed for a detailed view of the 3D geometry of a construction object or a complex of construction objects and the related attribute information of model elements (such as material, article, etc.). BIM (Building Information Model) is an object-oriented model consisting of elements, each belonging to its class - walls, floors, windows, reinforcement, and others. The class of an element defines the set of properties and behavior of the element. In this task, the IFC format is supported - an open standard for representing BIM data.
To assign a 3D view to a construction object, it is necessary to select the object on the map and, using the "Object Selection" dialog on the "Semantics" tab, specify a link to the file by adding a value to the service semantics "Link to BIM model file". Viewing the BIM model is done by double-clicking on the value of this semantics or using the "List of BIM models" mode.
Educational materials can be accessed in the "Video Lessons" section.
Geoportal
The map was led to the modernised classifier of large-scale plans of scale 1: 5 000 (
Free maps on the basis of OpenStreetMap data are available for download on the page
In "KB Panorama" developed a Complex of automatic recognition and vectorization -
To perform processing, the user needs to take several actions: open raster images in GIS "Panorama" (own images of the area) and/or connect geospatial portals with satellite images; in the client module "Panorama Vision" select an area of interest; start the recognition process by submitting a request. As a result of data processing by the complex, a layer with a vector map published according to the WFS protocol is obtained. The user can copy or edit the received map, as well as convert it to other formats. The "Panorama Vision" complex performs semantic segmentation of objects in images using deep neural networks based on the attention mechanism. For training the model for decoding the boundaries of agricultural lands, satellite images of regions in the middle zone of the Russian Federation were used together with a vector map containing plow contours. The total data volume is over 100 GB.
The accuracy of contour recognition on test images is about 90%. To generate field contours, the classifier agro10t.rscz is used, objects are created with code 79000002 - agricultural land boundaries. To generate contours of hydrographic objects, the classifier map10000.rscz is used, objects are created with code 31410000 - rivers, streams. For example, to generate contours of fields with a total area of 452 sq. km and raster data volume of 112 MB, it took 2 minutes. As a result of processing, 758 unique fields were created. The new version of the program is available for download in the Download section.