Professional GIS "panorama". GIS panorama - professional GIS "panorama" Electronic maps for GIS panorama

Professional GIS PANORAMA is a universal geographic information system that has tools for creating and editing electronic maps, performing various measurements and calculations, overlay operations, building 3D models, processing raster data, tools for preparing graphic documents in electronic and printed form, as well as tools for working with databases.

GIS "Map 2011" processes vector maps presented in the open SXF format. Data from other formats (SHAPE, S57, MIF / MID, DXF, KLM, GDF and others) can be converted to SXF format and vice versa. Digital vector map data has the following structure: 1. passport data about the map sheet (scale, projection, coordinate system, rectangular and geodetic coordinates of sheet corners, and so on); 2. metric data of map objects (coordinates of objects on the ground); 3. semantic data of map objects (various properties of objects). The object of an electronic map is a set of digital data (metrics, semantics, reference data), which can correspond to a real object on the ground (bridge, river, building, etc.) or a group of objects (block - group of houses, etc.) or part of an object (with a complex description of the object’s metrics - it can be divided into two objects, or the object can be described in detail - the porch of a building, individual buildings, etc.) or there is no correspondence (explanatory captions, contour lines, kilometer grid, etc.) d.).

In the GIS "Map 2011" a raster map is understood as a raster image in RSW format that has a coordinate reference. If the source image contains anchoring information, then this data is used when converting to RSW. The file binding can be loaded from: 1. world file (TFW, BMW, JGW, ...). The file only stores the file reference, and there is no projection data, so after conversion it is necessary to set the projection parameters in the raster passport; 2. MapInfo Tab (TAB) file. The file stores the binding and projection parameters; 3. OziExplorer binding file (MAP); GeoTIFF is a format that allows georeferencing information to be included in TIFF files. It most fully describes the parameters of the projection, therefore this format is most common when processing remote sensing (Earth remote sensing) data.

Converting data in formats SXF, TXF, DXF/DBF, MIF/MID, SHP, KML, GDF, S57/S52, GEN, DGN, MP, UPT, RTE, WPT, RTE, PLT, EVT, XLS, TXT, GRD, TIFF, JPEG, SID, NITF, EPS, EMF, etc. Support for standard card classification and coding systems, interactive setup symbol libraries and programming new primitives.

GIS PANORAMA Map calculations Professional GIS Map 2011 and Professional vectorizer Panorama editor is additionally equipped with a Complex of geodetic calculations designed for processing data from topographic and geodetic surveys in office conditions, applying calculation results to an electronic map and generating reporting documents based on metric and attribute data. The software tools included in the geodetic block allow you to solve most of the problems facing organizations performing field work in the cadastral area. Calculations on a plane and in space, taking into account projection distortions, curvature of the Earth, three-dimensional coordinates, height matrices and qualitative characteristics. Performing overlay operations on multiple objects. Control of topological correctness of data. Search and selection of objects based on the values ​​of attribute characteristics, size, spatial position relative to other objects.

GIS PANORAMA. NEW FEATURES Construction and analysis of networks The tasks of network analysis in GIS Map 2011 are to find the minimum route between nodes, taking into account the values ​​of the semantic characteristics of network edges and to find objects within a given distance from a specified node (distance graph). The network data model in GIS Map 2011 is presented in the form of a user map containing objects: a network node and an edge with semantic characteristics that store information about network connectivity and attributes for solving network analysis problems.

GIS PANORAMA. NEW FEATURES Construction of surfaces GIS "Map 2011" allows you to create and analyze models of surfaces that reflect changes in a given characteristic. The surface model can display such terrain properties as relief heights, pollution concentration, precipitation, radiation levels, distance from a given object, and others. The model can be formed in the form of a matrix of heights (MTW) ​​or a matrix of qualities (MTQ). The initial data for creating a model can be vector map objects or information from a database.

GIS PANORAMA 3D modeling Construction of three-dimensional terrain models, movement along them in real time. The surface of the model can be formed using vector, raster or matrix maps; it is possible to construct images of electronic map objects, select textures and coating materials.

GIS PANORAMA Databases Interactive design of information systems based on the built-in designer of forms, reports, SQL queries. Various types of connections between map objects and database table records (from one to one to many to many). Tools for data analysis and construction of graphs, diagrams, thematic mapping, geocoding. Setting up custom forms, creating graphs, charts, processing related databases, printing reports. Implemented the ability to generate macros and queries, combine several database tables into one, and organize the connection of map objects with user forms.
GIS PANORAMA Quick update of the map using the Internet 1. Activating the “ Google Earth", selecting a point on the map 2. Automatic loading of "Google Earth" and "Google Earth" and positioning to the point indicated on the map. point indicated on the map.

GIS PANORAMA. Online map update using the Internet 5. Loading data into the GIS "Map 2005" 4. Saving data in the exchange format (KML) format (KML) 5. Entering attribute data, coordination with existing map objects.

The GIS includes more than 100 different tasks, containing a variety of tools for processing spatial information about the area.

• Flexible classification system for spatial data, smart symbols;
• Support for international standards OGC, ISO 19100, IHO, ICAO and others for the exchange and display of spatial data;
• Parameter database support national systems coordinates by EPSG code;
• Support for common spatial data exchange formats;
• Combining data from databases and data from open sources using web browser protocols;
• Large set of expansion modules for special tasks: land and real estate cadastre, urban planning, ecology, agricultural enterprise management, air navigation, communication network management and others;
• Professional editor of digital topographical, maritime, aeronautical and other maps and city plans;
• 3D analysis complex, Report editor, Form designer, GPS\GLONASS monitor and many other built-in tasks;
• Collective remote work with data, access control and data protection based on cloud technologies;
• Generation of graphic images that clearly illustrate the relationship between the values ​​of the selected characteristic for individual objects of the electronic map;
• Generalization of digital maps – automated creation of small-scale maps from large-scale maps;
• Preparation of digital maps for publication;
• Collection of data for maintaining the land and real estate cadastre;
• Supports international standards for display and storage of maritime (IHO) and aeronautical (ICAO) data.

Key Features

Advanced tools for editing vector and raster maps terrain and applying applied graphic information to the map. Support for several dozen different map projections and coordinate systems, including the 42 year systems, PZ-90, WGS-84 and others. Support for the entire range of scales - from the floor plan to the space navigation map of the Earth. The volume of one vector map can take up several TB. One raster or matrix card can take up to 8 GB.

Import and View

• vector maps from formats (SXF, TXF, OGC GML (XML), KML (Google), Arinc 424, etc.);
• raster data (RSW, BMP, JPEG, GeoTIFF, TIFF, IMG), multispectral images (GeoTIFF);
• height matrices, quality matrices, geological layer matrices, TIN models, laser scanning data (point cloud in MTD format);
• custom maps, work area.

Creating new maps

Creating new maps with automatic filling of projection parameters by EPSG code or from a list of parameters in XML format.

Export maps to SXF, MIF\MID, SHP\DBF (Shape), OGC GML (XML), KML (Google), DXF, S57 formats.

Professional map editor (about 120 modes)

General quality control of the vector map and control of absolute heights.

Data Transformation(transforming a vector map, transforming raster data, transforming images, etc.)

Data processing(pre-tile preparation of OpenStreetMap data, construction mathematical basis, summary adjacent sheets, combining data, constructing contour lines using a DEM)

Data monitoring and correction(correction of object metrics, construction of signatures based on object semantics, control of signature metrics, viewing statistics on objects, etc.)

Geodetic problems(calculation of MCS parameters from a set of points, calculation of datum parameters from a set of points)

Designed to create signatures based on the semantics of objects. In the process of creating signatures, their relative position is analyzed to eliminate the intersection of signatures.

Construction of three-dimensional terrain models and movement through them in real time. The surface of the model can be formed using vector, raster or matrix maps; it is possible to construct images of electronic map objects, select textures and coating materials.

Performing logical and mathematical operations on lists of objects

Constructing intersections or unions of object contours from one list with another. Construction of a common zone around the objects included in the list. Selection on the map of objects of one list that have a certain spatial connection with objects of another list (entry, intersection, adjacency, removal within a given distance, etc.), etc.

Network model and network analysis.

The tasks of network analysis are to find the minimum route between nodes, taking into account the values ​​of the semantic characteristics of network edges, and to find objects within a given distance from a specified node (distance graph). The network data model (road graph) is presented in the form of a user map containing objects: a network node and an edge with semantic characteristics that store information about network connectivity and attributes for solving network analysis problems.

Map Atlas - map manager

Map atlas support (quick transition between overlapping maps of different scales, coordinate systems and projections. Using additional module - "Card Manager" convenient systematization of metadata about cartographic resources in your local network.

Interactive design of information systems based on the built-in designer of forms, reports, SQL queries. Various types of connections between map objects and database table records (from one to one to many to many). Tools for data analysis and construction of graphs, diagrams, thematic mapping, geocoding.

Creating charts on a map based on the values ​​of semantic characteristics or the values ​​of selected fields of database tables. When creating cartograms, there is the possibility of proportional and disproportionate distribution of ranges of attribute characteristics values.

Calculations on a plane and in space

Calculations on a plane and in space, taking into account projection distortions, curvature of the Earth, three-dimensional coordinates, height matrices and qualitative characteristics. Performing overlay operations on multiple objects. Control of topological correctness of data. Search and selection of objects based on the values ​​of attribute characteristics, size, spatial position relative to other objects.

GIS "Panorama" allows you to create and analyze models of surfaces that reflect changes in a given characteristic. The surface model can display such terrain properties as relief heights, pollution concentration, precipitation, radiation levels, distance from a given object, and others. The model can be formed in the form of a matrix of heights (MTW) ​​or a matrix of qualities (MTQ).

1. The performance of the Panorama system is several times higher (both when displaying and when processing requests for data selection) than that of similar systems.
2. With the same functionality, the cost of Panorama is approximately 2 or more times lower.
3. Panorama quickly develops through close contact with users.
4. The panorama is completely localized for Russia.
5. Panorama is a standard in the RF Armed Forces, so it is easier to certify it for use in the Ministry of Internal Affairs, the Ministry of Emergency Situations, the FSB and large state corporations.
6. The ability to order specialized versions directly from the creators of the Panorama system in a short time at reasonable prices.
7. Availability of certified map material, which was produced using the Panorama system, and which is certified in it.
8. In Panorama, storing cartographic data is much more compact.
9. The symbols on the electronic map correspond to paper originals in appearance and size when displayed on the screen and printed.
10. The system is easier to use.
11. Internet/Intranet GIS technologies have been developed based on Panorama.
12. Availability of specialized components for the development of GIS applications in Delphi/C++ Builder, which have wide functionality.
13. The system core has been ported to various platforms (Windows, Windows CE, Linux, QNX, Intel processors, Sparc, Mips) and is used for application development.
14. Provides multi-user work on a local network with a multi-sheet, multi-layer map together with raster and matrix data; construction of orthophotomaps, three-dimensional models, geological matrices (multilayer), solving geodetic problems, etc.

General information about GIS Panorama

USING GIS
Geographic information systems are actively used to solve scientific and practical problems, including planning and management at the city, regional and federal levels, comprehensive multidimensional study of natural and economic potential within regions, design and operation of oil pipelines and transport highways, Environmental monitoring. Today, it is impossible for a modern specialist to do without a wide range and effectiveness of the use of geographic information systems.
The increasing complexity of society's infrastructure and its development require more careful and thoughtful management of resources, mastery of new means and methods of information processing.
The desktop geographic information system "PANORAMA" provides high clarity of display of heterogeneous information, convenience and power of tools for analyzing reality. At the same time, low requirements for technical means, ease of use and maximum openness of the system will allow specialists in various fields to use the PANORAMA GIS in any area of ​​their professional activity.

TECHNOLOGY POSSIBILITIES
Of all the variety of software offered on the GIS market, the end user is often not completely satisfied with any one option. This cannot be a disadvantage of specific systems, this is a natural phenomenon - it is difficult to satisfy all the requirements for GIS: firstly, there are too many of them, and secondly, they may contradict one another. Convenience when working with system tools, data formats, as well as compatibility of various GISs also plays an important role here. Moving in the wake of solving many problems, the PANORAMA system provides the opportunity for both beginners and professionals to perform tasks of any complexity and in various directions. The development team managed to put together a powerful and flexible tool for working with heterogeneous input information, processing and using it as high-quality raw materials or finished, certified products. The basis of the GIS "PANORAMA" is a specialized electronic map database management system, which allows you to create, based on almost any source materials, vector electronic maps, raster electronic maps, raster background maps (up to 16 million colors), matrix electronic maps (relief elevation matrices, matrixes of heights of terrain volumes, matrices of properties of terrain sections). One of the advantages of the system is the ability to develop additional application tasks in 32-bit operating systems Oh. During its existence since 1991, PANORAMA has proven itself well in the DOS environment, and on the current testing grounds of various operating systems. Without exaggeration, we can say that this is one of the fastest GIS.

DATA STRUCTURE
A vector electronic map can contain several thousand sheets of electronic maps. The size of a separate sheet - the area of ​​the displayed territory, can correspond either to a standard map sheet (for example 1:200000, 1:5000, etc.), or be determined by the user in each case separately, that is, the sheet size is unlimited. All objects on the sheet have their own localization (linear, areal, signature, etc.), and they are all divided into layers - “HYDROGRAPHY”, “ROAD STRUCTURES”, “RELIEF”, etc. There are 256 types of layers allowed, and taking into account the localization of objects, there can be more than 1000 of them. Just one sheet of an electronic map can contain up to 4 billion objects. In the PANORAMA system, the composition of the display is quickly and very flexibly managed by layers, localization, or individual characteristics of map objects. The volume of a raster or matrix map can reach 4 GB, and the volume of a vector electronic map can be up to several terabytes (TB). The PANORAMA system allows you to store user data - weather data, movement information Vehicle

• , data on radio visibility conditions, and so on, separately from terrain maps, using a subset of the vector map structure. This approach has the following advantages:
• together with one terrain map, any number of different user maps with their own classifiers can be simultaneously displayed;
• a custom map can be displayed together with raster and matrix maps; the same user map can be displayed simultaneously on different maps
• terrain and edited by different users;

The creation, updating, and distribution of terrain maps and custom maps can be done independently by different services from different sources. A graphical representation of an object can be stored in an object record, making it easy to convert data from DXF, MIF/MID, etc. formats. Attribute data can be stored in an external relational database. Communication with the database is carried out using a unique object number on the map. Thanks to a thoughtful approach to the data structure, the system has the ability to quickly and flexibly search for objects on the map - by number, type, name, as well as a combination of any object characteristics in a certain respect. The basic exchange format is the SXF format in binary and text formats. The formats supported are Roscartography, TS RF Armed Forces, as well as DXF and MIF/MID.

DATA PROCESSING
Visualization of the contents of the electronic map database is carried out in conventional signs, adopted for topographical, survey-geographical, cadastral and other types of maps.

Broad powers are granted to create (adding) custom symbols that characterize the terrain or map objects depending on the specific characteristics of the information owner or external influence factors.
To work with a vector map, the PANORAMA system provides a whole set of service functions. Creating and editing electronic map objects, performing calculation operations (determining areas, lengths, height directions, terrain sections, constructing zones around objects, constructing intersections for displaying processing results on an electronic map - this is not a complete list of these capabilities. Joint processing of vector, raster and matrix data, as well as their arbitrary offset relative to each other, allows not only to create an electronic map, but also to make operational changes depending on events occurring on the ground. It is possible to display images of an electronic map in various combinations on external printing devices.

APPLICATION DEVELOPMENT
The program is implemented as a set of dynamic libraries (DLL) with a documented interface ("MAPAPI"), which allows the use of individual libraries in the environment of C++, Delphi, Visual Basic, Visual Foxpro and others. Special components (Gis Tool Kit) have been developed for developing applications in the Delphi/C++ Builder environment.

SUPPORT FOR EXTERNAL DBMS
Objects of a vector electronic map can be logically linked to an external relational database. Various database formats are supported using BDE and ODBC. Database records are associated with objects through a unique 4-byte identifier within the electronic map sheet. The identifier does not change during object processing and cannot be assigned to another object, even after the object is deleted.

WORKING IN A NETWORK ENVIRONMENT
The same data is available for processing over the network by any number of users. When one of the users edits a map, the data is automatically updated for all users working with this map, including on the screen.

When editing the same object by several users at the same time, the object will be in the state it received as a result of the last editing operation.
Program execution can be interrupted at any time without loss of data integrity.

An object that was being edited when the crash or failure occurred will remain in the state it was in before editing began. Objects that were edited or created before a software or hardware failure occurred will be successfully saved to magnetic media. When editing map objects, all their intermediate states are saved in backup files.
Any erroneous operator action to edit, create or delete objects can be canceled in the same program session or in any subsequent one, but before the procedure for sorting and compressing vector map data is performed. When loading data from a faulty file in the SXF exchange format, the data located before and after the faulty section will be processed correctly. If a failure occurs on magnetic media containing data in the internal system format, the data can be transferred to another part of the media by performing a data sorting and compression procedure, or by uploading to a data interchange format and re-loading it onto another media. SUPPORT FOR OPERATING SYSTEMS AND PLATFORMS The program runs in

Windows environment
95 and Windows NT.

The system core and application development tools have been transferred to various hardware and software platforms (LINUX, QNX, Sparc, Mips).

PROJECTS

• Fixed license – requires the presence of an electronic key at each workplace.
• Floating license - assumes the presence of one electronic key on the local network, which allows you to simultaneously run the paid number of copies of programs on any computer.

Discounts on license purchases

When paying for 10 or more sets of software of the same name, their cost is reduced by 10%. The price of the software includes the annual cost technical support– free update of versions (within the highest digit of the version) by downloading updates from the website, consultation by e-mail and by phone. Each subsequent year of support is paid additionally at the rate of 24% of the cost of the purchased software (one workstation). The minimum number of workstations per key with a floating license is 3. All products support multi-user access to spatial data on the network. The price of discounted software products (updates) includes a CD with new software versions and a special security management program. The update is performed in accordance with the paid number of updated versions and the key numbers specified during payment.

Technical support

Free technical support is provided to users of software developed by the company's specialists for one year from the date of purchase. Technical support includes troubleshooting software errors, consultations (in Russian and English languages) by email and in a special section of the technical support service website at www.gisinfo.ru on weekdays (except for weekends and non-working holidays in the Russian Federation) from 10 to 18 hours Moscow time.

Licensing of academic organizations

• Under the educational licensing model software products and vendor technologies for use in the educational process are provided on preferential terms at a price of 10% of the full price of the corresponding product.
• Licenses for educational institutions have the right to acquire:
• State and private higher education institutions.
• Educational institutions of secondary and secondary specialized education.
• Advanced training courses and institutes.
• Training centers that have licenses to conduct educational activities issued by the Ministry of General and Vocational Education or other authorized government body.
• Administrative bodies governing educational institutions operating at the regional, regional and state levels.
• Institutes of the Academy of Sciences system.
• Public libraries and museums.

To receive a set of programs for educational institutions, you must send an official letter from the head of the educational institution by fax or e-mail indicating the number of jobs and a commitment to use the programs for educational purposes.

1. Import and view:

• vector maps from SXF, TXF, OGC GML (XML), KML (Google), DXF, etc. formats;
• raster data (RSW, BMP, JPEG, GeoTIFF, TIFF), multispectral images (GeoTIFF);
• height matrices, quality matrices, geological layer matrices, TIN models, laser scanning data (point cloud in MTD format);
• custom maps, work area.

2. Creation of new cards with automatic filling of parameters using the EPSG code or from a list of parameters in XML format.

3. Export maps to SXF, DXF, OGC GML formats.

4. Multi-user work with data with access control through a connection to the GIS Server.

5. Editing the map:

• creating simple objects and objects with subobjects;
• creating objects according to the type selected from the panel of created object layouts;
• creating, deleting and moving object contour points;
• moving and rotating objects;
• drawing simple lines and polygons;
• entering caption texts and attribute values ​​in UNICODE.

Combining and editing vector maps of different projections in one document.

6. Support for popular geoportals, allowing you to display user maps on top of images received from Google (Satellite), Google (Map), Google (Landscape), Yahoo! (Satellite), Yahoo! (Map), OpenStreetMap (Map), Yandex (Satellite), Yandex (Map), Rosreestr, geoportal of the Cadastral Map of Ukraine, Space Images and others. The list of geoportals is constantly expanding and can be supplemented by system users.

Import data from servers using OGC WMS and OGC WFS protocols.

7. Connection to a GPS/GLONASS receiver to solve navigation problems. Manage data using tasks "Map Legend" And "Atlas of maps".

8. Preparation and printing complex reports, including maps, graphics, multi-line text with different attributes, embedded office documents and tables, border design, coordinate grids and other elements.