KB "Panorama" has developed the "Risk Analysis Complex for Man-made and Natural Threats". This complex is designed for automated predictive modeling and assessment of potential consequences of emergency situations (ES) according to various scenarios. These include control of air object detection and electronic warfare (EW) means, flood calculation using the cross-section method, large-scale forest fires, dam break wave modeling on hydraulic structures, and others. Additionally, the complex can model accidents at chemically, radiological, biologically, explosively hazardous objects, and hydraulic structures.

The component for controlling air object detection and EW means is designed for optimal placement of reconnaissance assets in a given positional area, carrying out visual or radar reconnaissance of low-altitude air objects and electronic warfare means. The operation of the component is based on mathematical modeling of radio wave propagation and geometric visibility analysis. When modeling coverage zones, digital terrain maps are used together with a height matrix. Consideration of the terrain relief allows predicting "dead zones". This is critical for detecting low-altitude targets that may use terrain folds, riverbeds, or forests for covert approach. The complex includes a database of Russian radars, as well as electronic warfare systems (Polyana, MGLA–04m, Proyed-S, Gipnoz-103, Volna 2, Volna 3, Volna-Khrust 360, GBSH 950, GBSH 950+), aimed at suppressing control channels of unmanned aerial vehicles (UAVs), suppressing satellite navigation (GPS, GLONASS, Galileo, Beidou), and spoofing satellite coordinates to disorient UAVs. The composition of technical means and a description of their main characteristics are stored in the database and can be supplemented by users.

The "Emergency Prediction" component allows for the construction and analysis of mathematical models of emergency situations at potentially dangerous facilities. The complex is implemented as an application task intended for operation in GIS "Panorama". Activation of the mode is performed from the menu item "Tasks – Run applications".

Using the obtained spatial results of ES modeling, a number of analytical operations can be performed using standard GIS "Panorama" tools. For example, determine structures (population, personnel) that fell into the affected area, calculate the distance of objects from the accident zone, calculate evacuation routes or access routes for special equipment using a road graph, and others.

It is possible to save ES modeling results for their subsequent repeated use. Furthermore, it is possible to use initial data from already saved models when building a new ES model. This allows for a more detailed assessment of the development of a possible accident situation by forming a set of models of this situation, changing just one or several variable factors: for example, wind direction or time from the start of the accident.

The current version of the Complex is available for download in the Download section.

KB "Panorama" has developed the "Agronomic Tasks Complex" version 6.13.5 for GIS "Panorama". The new version of the complex improves the means of information support for the state accounting of fertility indicators of agricultural lands. Accounting for fertility indicators includes the collection and synthesis of results from soil, geobotanical, and other surveys of agricultural lands.

The composition of fertility indicators is established by Order No. 150 of the Ministry of Agriculture of the Russian Federation dated May 4, 2010. In accordance with the requirements of this order, the digital classifier agro10t.rsc has been implemented, which is used by government authorities, FSBI "Russian Agricultural Center", agrochemical service enterprises, agricultural producers, and other interested individuals and organizations.

The Russian Ministry of Agriculture adjusted the procedure for state accounting of agricultural land fertility indicators by Order No. 729 dated December 2, 2020 "On Amendments to Order No. 150 of the Russian Ministry of Agriculture dated May 4, 2010". In accordance with the updated list of indicators, changes have been made to the agro10t.rsc classifier, including the following groups: a) general indicators; b) physical and chemical indicators; c) soil pollution indicators; d) indicators of negative processes; e) additional indicators for soils of unused lands; f) biological activity; g) indicators of the geobotanical state of hayfields and pasture soils; h) indicators of the phytosanitary state of soils.

For user convenience, the list of fertility indicators, in addition to mandatory items, includes an expanded composition of recorded information. Basic and additional information is used during the operation of agricultural lands to record the results of field observations and studies. The "Agricultural Land Passport" mode is intended for entering, viewing, and editing information, in which indicators are grouped into: general indicators, physical conditions, agrochemical composition, crop rotation, phytosanitary condition. The expanded set of indicators is maintained in the soil fertility database.

To include current monitoring results in the state register of agricultural lands, the set of indicators must correspond to the established list. The semantics of agricultural land map objects created based on the agro10t.rsc classifier are intended for this purpose. The values of fertility indicators of agricultural lands entered into the soil fertility database are automatically synchronized with the semantics of agricultural land map objects according to the established composition. The "Object Description" mode is intended for viewing the semantics values of agricultural land contours.

To transfer monitoring information to the state register of agricultural lands, data is exported into the established format. The program supports all popular data formats, including: SXF, GML, GeoJSON, SHP, and others.

The new version of the Agronomic Tasks Complex is available for download in the Download section.

Geoportal "Bank of spatial data" has been supplemented with a map of the Republic of Kiribati, formed according to OpenStreetMap data. To work with the map, you can use the GIS Panorama Mini program or other software products of KB "Panorama".

The map was led to the modernised classifier of large-scale plans of scale 1: 5 000 (map5000m). Publishing of updates in bank of spatial data is made by using the program of Databank of digital maps and remote sensing data. Publishing contents of bank of spatial data on the geoportal and data access for downloading are implemented by means of GIS WebServer SE.

Free maps on the basis of OpenStreetMap data are available for download on the page "Digital maps".

Specialists of KB "Panorama" have prepared an educational video material dedicated to the application of artificial intelligence technologies for automating spatial data processing in GIS "Panorama". The video tutorial is aimed at students of MIIGAiK, as well as practicing specialists working with engineering and cartographic information.

The educational material shows how, using modern tools and AI, you can quickly move from problem definition to creating a working scenario without lengthy manual development. A real example of processing pipeline data is considered: automatic merging of linear segments within a single object based on a given distance between extreme points, followed by the removal of degenerate fragments. This approach allows performing precise and repeatable operations with extended objects, significantly reducing time compared to manual processing.

Special attention is paid to the use of open panorama-sdk materials and AI capabilities for generating and refining scripts. The user only needs to correctly formulate the task to get a solution basis, which can then be adapted to specific data and production requirements. This significantly lowers the barrier to entry into programming and speeds up the mastery of Python and MAPAPI in the GIS "Panorama" environment.

The video tutorial demonstrates a modern LowCode approach, where the specialist focuses on problem definition, result verification, and configuration of ready-made scripts. This format of work allows for faster implementation of automation, replication of successful solutions, and increased efficiency of spatial data processing in daily activities.

You can familiarize yourself with the video material in the "Video tutorials" section.

KB "Panorama" has developed the "Cadastral Engineer's ARM" version 15.5.5. In the new version, the "Map (Plan) of the Land Management Object" mode has been improved, and processing of information about the boundaries of agricultural lands has been implemented. A new object "Agricultural Land" has been added to the "Cadastral Plan of the Territory" layer in the survey.v6 classifier. The value "22" - "Boundary of agricultural land within agricultural lands" has been added to the "Type of boundaries, zones and territories" semantics. Support for the updated XML schema interact_entry_boundaries_v02 is implemented, used for generating documents sent to the rights registration authority in the order of interdepartmental information interaction. The documents contain information about boundaries, zones, territories, and agricultural lands for entry into the boundaries register of the Unified State Register of Real Estate. The agricultural_land element is filled in the XML document - information about the boundary of agricultural land or changes to such information.

A new dialog "Correspondence of MSC designations and reference system parameters" has been developed. The call is made in the "Parameters for generating cadastral documents" or "Reading the cadastral plan of the territory and updating the map" mode. In the "Read CPT and update map" dialog, outdated elements for configuring local coordinate system (LCS) parameters used when maintaining the Unified State Register of Real Estate have been removed. To establish the correspondence of the names of LCS in XML extracts to the specified LCS parameters in the coordinate system reference file, the "Correspondence of MSC designations and reference system parameters" dialog is called.

The "Cadastral Works Database" mode has been improved, and the "Name of Authority" directory has been added. The directory is used for entering and reusing information about state and municipal authorities when filling out relevant information in dialogs for generating cadastral documents.

The "Create objects from XML file" mode has been improved, elements have been added to call tools for configuring local coordinate system parameters used when maintaining the state forest register. The reference system parameters for local coordinate systems are described in a special XML file, which users maintain in accordance with their available data. In XML extracts of the state forest register, coordinates of forest inventory compartments, forest blocks, forest districts, and forest plots can be presented in geographic and local coordinate systems. To establish the correspondence of LCS names in XML extracts to LCS parameters specified in the coordinate system reference file, the "Correspondence of MSC designations and reference system parameters" dialog is called.

In the "Map Editor", when creating and editing contours of linear and area objects, automatic metric control for self-intersection and inclusion of subobjects has been added. When errors are detected, a pop-up error message appears in the lower right corner, and a transition is made to the point on the map containing the first error. To activate automatic metric control, you need to enable the "Check metric when saving" flag in the "Vector Map Editor Parameters" dialog. When the "Check length of new segment" flag is set, the function of checking the quality of object contour digitization is activated by highlighting the applied metric segment if it does not meet the vectorization parameters. If the segment length is less than the value of the "Filter level" field, the segment is highlighted with a red translucent line. If the segment length is greater than the value of the "Tracing step" field, the portion of the line exceeding the tracing step is highlighted with a purple translucent line.

The new version of the program is available for download in the Download section.