SOFTWARE

INPHO

MATCH-AT provides high-precision and high-performance digital aerial triangulation based on advanced and unique image processing algorithms by INPHO. It is a single, automatic process for point selection, point transfer and measurement, along with an integrated robust bundle block adjustment requires minimum user interaction.
MATCH-AT provides high-precision and high-performance digital aerial triangulation based on advanced and unique image processing algorithms by INPHO. It is a single, automatic process for point selection, point transfer and measurement, along with an integrated robust bundle block adjustment requires minimum user interaction. Strong internal quality control of tie points by performing robust bundle block adjustment in each level of image pyramid. High precision tie point correlation is achieved by an advanced combination of feature-based and least-squares matching, with multi-threading support .Effective tie point matching also in poorly textured, as well mountainous areas. Multiple stereo displays for easiest stereoscopic manual point measurement. Optional color anaglyphs are available for standard LCD screens. It has a smooth transfer of exterior orientation data to stereoplotters and other photogrammetric applications. Multi-camera support in one block and camera-specific self-calibration parameter sets. The results of self-calibration are made available as a dense correction grid for further use in any subsequent application.
It is a new-generation bundle block adjustment software. It combines advanced mathematical modeling and adjustment techniques with user-friendliness and excellent graphical analyzing capabilities. InBLOCK is suitable for special application, like field-calibration of digital aerial cameras.

It is a new-generation bundle block adjustment software. It combines advanced mathematical modeling and adjustment techniques with user-friendliness and excellent graphical analyzing capabilities. InBLOCK is suitable for special application, like field-calibration of digital aerial cameras.

DTMaster provides up-to-date technology for fast and precise DSM/DTM editing. It offers efficient quality control and editing of tens of millions of DSM/DTM points generated by Photogrammetry or LIDAR, underlying blocks of stereo imagery or orthophotos. It provides a comprehensive set of efficient tools for quality assurance of DTM data, including data visualization, numeric plausibility checking, as well interactive data editing and 3D measurement.

DTMaster provides up-to-date technology for fast and precise DSM/DTM editing. It offers efficient quality control and editing of tens of millions of DSM/DTM points generated by Photogrammetry or LIDAR, underlying blocks of stereo imagery or orthophotos. It provides a comprehensive set of efficient tools for quality assurance of DTM data, including data visualization, numeric plausibility checking, as well interactive data editing and 3D measurement. DTMaster works with stereo hardware supporting quad-buffer stereo. If quad stereo is not supported, it automatically switches to anaglyph stereo. DTMaster is extremely powerful in visualization and editing of very dense point clouds.
MATCH-T DSM is an automated terrain and surface extraction environment providing highly precise digital terrain models and digital surface models derived from aerial or satellite imagery. Seamless models are generated for entire image blocks. In the latest version Trimble INPHO software absolutely up-dated algorithm of DTM extraction is used that allows to create modules which has density of one point per pixel, it gives an opportunity to create detailed and precise DEM, that till now has been achievable by LIDAR.

MATCH-T DSM is an automated terrain and surface extraction environment providing highly precise digital terrain models and digital surface models derived from aerial or satellite imagery. Seamless models are generated for entire image blocks. In the latest version Trimble INPHO software absolutely up-dated algorithm of DTM extraction is used that allows to create modules which has density of one point per pixel, it gives an opportunity to create detailed and precise DEM, that till now has been achievable by LIDAR. A new strategy of Cost-Based Matching gives the opportunity to achieve high accuracy by leading-edge multi-image matching techniques. 

Summit Evolution is a user-friendly digital stereo plotter that allows 3D feature collection directly into ArcGIS, AutoCAD or MicroStation. 

The levels of Summit Evolution functionality
ProfessionalFeature CollectionLite
Measurement and measurement of directions+
High-tech measurement and export+
Orthophoto imagery+
Panorama+
Coordination of management and transformation++
Creation of circuits+
Project review++
Terrain visualization++
Image creation++
3D cursor support++
Image support++
Third-party products import+++
System Mouse support+++
Image creation for AutoCad, ArcGIS, MicroStation+++
Anaglyphic stereoscopic viewing method+++
Landscape integration+++
Map editing+++
A complete set of roam and scaling+++
Tools for image managing+++
The export documentation and 1-year technical support
+++
Import with software support+++
Viewing 3D stereo on several screens+++
Terrain following+++

OrthoMaster is professional software for rigorous ortho-rectification of digital aerial or satellite imagery. It is optimized for high performance orthophoto production and offers built-in DTM handling and intelligent true-orthophoto capabilities. OrthoMaster in combination with MATCH-T DSM allows reducing significantly time-consuming of creating such a product.

OrthoMaster is professional software for rigorous ortho-rectification of digital aerial or satellite imagery. It is optimized for high performance orthophoto production and offers built-in DTM handling and intelligent true-orthophoto capabilities. OrthoMaster in combination with MATCH-T DSM allows reducing significantly time-consuming of creating such a product.

OrthoVista is the most powerful professional mosaicking product world-wide. It utilizes advanced image processing techniques to automatically adjust and combine orthophotos from any source into one single seamless, color-balanced mosaic. The new fully-automated seamline finding algorithm detects man-made objects, and thus provides high quality results even in urban areas. The resulting seamless and color-balanced mosaics provide users with the highest radiometric and geometric quality.

OrthoVista is the most powerful professional mosaicking product world-wide. It utilizes advanced image processing techniques to automatically adjust and combine orthophotos from any source into one single seamless, color-balanced mosaic. The new fully-automated seamline finding algorithm detects man-made objects, and thus provides high quality results even in urban areas. The resulting seamless and color-balanced mosaics provide users with the highest radiometric and geometric quality.

SCOP++ is designed for efficient handling of DTM projects, with data coming from LIDAR, Photogrammetry or any other source, SCOP++ provides unsurpassed quality of DTM interpolation, filtering, management, application and visualization. It uses efficient robust interpolation techniques with flexible adaptation to terrain type and terrain coverage.

SCOP++ is designed for efficient handling of DTM projects, with data coming from LIDAR, Photogrammetry or any other source, SCOP++ provides unsurpassed quality of DTM interpolation, filtering, management, application and visualization. It uses efficient robust interpolation techniques with flexible adaptation to terrain type and terrain coverage.







Modules SCOP++


ModulesOpportunities 
SCOP++ Kernel 
  • Precise DTM interpolation with or without filtering;
  • Generation of DTM consisting of up to one billion points;
  • – Data densification and data reduction;
  • – –Contouring with cartographic quality;
  • – –Basic profiling;
  • Flexible Z-coding and hill-shading;
  • Integrated raster and vector graphics;
  • Combination of geo-referenced raster graphics with DTM views like hill-shading or contours;
  • Interpolation of check point elevation.
      SCOP++ LIDAR 
Scop lidar149.png
  • Filtering of air-borne laser scanning data for automatic classification of the raw point cloud into terrain and off-terrain points, i.e. for extracting the true ground points for further DTM processing;– –
  • Efficient robust interpolation techniques with flexible adaption to terrain type and terrain coverage;– –
  • User-controlled hieratical process using point cloud pyramids;– –
  • Elimination of gross errors in any DTM data.
SCOP++ Visualizer
  • Perspective DTM views in form of raster graphics generated by SCOP++Kernel, or wire-frame models;– –
  • Panoramic views with annotation of geographic names.
SCOP++ Analyzer
  • DTM algebra (including difference DTMs);
  • – –Volume computation;
  • – –Profiling, cross-sections;
  • Digital slope modules and slope maps;
  • Mosaicking and feathering of overlapping DTMs.
SCOP++ TopDMBuildingGenerator
  • Topographic Data Management designed for storing, managing and archiving nation-wide digital elevation information;– –
  • Geocoded relational data base;
  • Georeferencing (map projection and coordinate transformations, geodetic datum transformations);
  • –Management of DTM data: DTM selection and export; Merging DTMs; extracting parts from DTMs; DTM resampling;;
  • On request: interfacing with ORACLE database.

The module is designed for automatic generation of generalized roof surfaces out of 3D points clouds, and extraction of buildings models by intersection with terrain models. Airborne laser scanner (LIDAR) data and photogrammetric data acquired from aerial imagery are the leading ones for automated extraction of various objects, particularly due to their very dense and accurate point cloud representation of the real-world topography. Cadastral base is needed as additional source of information. 3D city modeling is designed in XML-format, LOD2 detailed level.

The module is designed for automatic generation of generalized roof surfaces out of 3D points clouds, and extraction of buildings models by intersection with terrain models. Airborne laser scanner (LIDAR) data and photogrammetric data acquired from aerial imagery are the leading ones for automated extraction of various objects, particularly due to their very dense and accurate point cloud representation of the real-world topography. Cadastral base is needed as additional source of information. 3D city modeling is designed in XML-format, LOD2 detailed level.

UASMaster is the right tool for complete processing of data acquired with unmanned aircraft systems (UAS). UASMaster combines ease of use with the full power of photogrammetric workstation. UASMaster includes advanced technology that has been customized to provide high quality results from the special characteristics of UAS data. It easily integrates into Inpho world of Photogrammetry and 3rd party workflow. 

UASMaster is the right tool for complete processing of data acquired with unmanned aircraft systems (UAS). UASMaster combines ease of use with the full power of photogrammetric workstation. UASMaster includes advanced technology that has been customized to provide high quality results from the special characteristics of UAS data. It easily integrates into Inpho world of Photogrammetry and 3rd party workflow. 

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