Leica HxMap
$ 0,00
With HxMap, Leica Geosystems offers a unified, high-performance multi-sensor workflow to process airborne images and Lidar data. The platform provides fast, intuitive, and efficient post-processing, that enables you to produce all data products within one single interface. The software suite offers various modules to create orthophotos, oblique images, digital surface models, LiDAR point clouds, building footprints and 3D city models.
Description
The increased need for up-to-date geospatial information in many of the traditional applications as well as in emerging areas such as navigation or location-based apps requires a new approach to data processing: rapid updates over large areas in the shortest possible time. To be a true No 1, the world’s most efficient airborne sensors still rely on an efficient and fast data processing workflow.
By introducing HxMap, the unified high-performance multi-sensor workflow platform, Leica Geosystems offers exactly what the industry has been waiting for: a fast, intuitive and efficient post-processing platform, that allows you to produce all known data products within one single interface.
- Saving you time and costs
You and your staff only need to be proficient in one simple user interface to produce any known airborne data product. Don’t waste time moving your data from one software to the other, but benefit from one end-to-end workflow. - Unprecedented data throughput
Take advantage of the industry’s fastest data throughput and process any amount of data more efficiently in one single post-processing interface. - Easily adaptable to your needs
Create your personal post-processing workflow with one flexible and modular platform that can be customised to your specific application needs by adding software licenses only once you need them.
Additional information
| Year of introduction | 2014 |
|---|---|
| Relative | Y |
| Radiometric adjustment for mosaicing | Y |
| Radiometric corrections | Y |
| Spatial convolution | Y |
| Automatic aerotriangulation | Y |
| Automated blunder detection | Y |
| Self calibration | Y |
| images simultaneously processed | Y |
| Automatic Relative | Y |
| Automatic contrast manipulations | Y |
| Semi-automatic building extraction | Y |
| 3D superimposition | Y |
| Integration with 2D vector maps | Y |
| Integration with point clouds | Y |
| Automatic texturing | Y |
| Mapping facilities | Y |
| Brand | Leica Geosystems Airborne Solutions |
| Resampling | Y |
| Export data formats | TIFF, JPG, LAS (1.2/1.4), CityGML, OBJ, TDC |
| Year of last update | 2020 |
| 64-bit version of software available | Y |
| Modular | 5 Modules (Enabler, Provider, Core Imaging, Core LiDAR, 3D Modeller) |
| Regional settings available | English and Chinese |
| System includes hardware | N |
| Operating system(s) | Windows, Linux as well as cloud processing environments |
| Distributed processing capacity | Y |
| GPU based calculations | N |
| Supported special hardware | support for stereo viewing hardware |
| Method of stereo image separation | Anaglyph, Polarized Glasses, 3D Screens |
| Input image formats | Leica Raw Data (external image and point cloud data for certain processes) |
| Scanned analogue Aerial Photos | N |
| Digital Aerial Nadir Frames | Y |
| Oblique Images | Y |
| Linear array sensors | Y |
| Optical Satellite Images | N |
| UAS Images | N |
| Radar Images | N |
| Supported image sources | Leica Airborne Sensors (Imagery, LiDAR and Hybrid) |
| Addres | Leica Geosystems Airborne Solutions |
