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Trajanje:
od 2. september 2013
Opis

Relief Visualization Toolbox

Relief Visualization Toolbox was developed to help scientist visualize raster elevation model datasets. We narrowed down the selection to include techniques that have proven to be effective for identification of small scale features. Default settings therefore assume working with high resolution digital elevation models, derived from airborne laser scanning missions (lidar).

Despite this, techniques are also used for different other purposes. Sky-view factor, for example, can be efficiently used in numerous studies where digital elevation model visualizations and automatic feature extraction techniques are indispensable, e.g. in geography, geomorphology, cartography, hydrology, glaciology, forestry and disaster management. It can be used even in engineering applications, such as, predicting the availability of the GPS signal in urban areas.

Methods currently implemented are:

  • hillshading,
  • hillshading from multiple directions,
  • PCA of hillshading,
  • slope gradient,
  • simple local relief model,
  • sky-view factor (as developed by our team),
  • anisotropic sky-view factor,
  • positive and negative openness,
  • sky illumination, and
  • local dominance.

 

For a more detailed description see references given at each method in the manual and a comparative paper describing them (e.g. Kokalj and Hesse 2017, see below).

RVT supports elevation raster file data conversion. It is possible to convert all frequently used single band raster formats into GeoTIFF, ASCII gridded XYZ, Erdas Imagine file and ENVI file formats. Mosaicking of multiple files, e.g. tiled lidar elevation models, works well if data are reasonable, i.e. if all the files have the same projection, resolution, square pixels etc.

Development of RVT was part financed by the European Commission's Culture Programme through the ArchaeoLandscapes Europe project and by the Slovenian Research Agency core funding No. P2-0406, and by research projects No. J6-7085 and No. J6-9395.

A bug: Users currently have to manually select the "Remove noise" for SVF and Opennes to correctly compute the Visualization for Archaeological Topography for flat terrain.

Downloads

Relief Visualization Toolbox Standalone version (EXE), Windows 64-bit, version 2.0.1.
Relief Visualization Toolbox manual, version 1.3 (Instructions for use), We are working on the manual for version 2.0.

Please report any bugs and suggestions for improvements.

References

When using the tools, please cite:

 

Further reading

 

Images

Note: click to enlarge, press ESC to quit.

Visualization techniques showing St. Helena church and its immediate surroundings. St. Helena is a known yet un-researched archaeological site west of Kobarid, Slovenia, believed to be a late Roman camp.

Relief Visualization Toolbox graphical user interface for choosing different visualizations and their options.

Relief Visualization Toolbox graphical user interface for conversion of raster elevation files. The tool reads all tipically used raster formats and converts them into GeoTIFF, ASCII gridded XYZ, Erdas Imagine file and ENVI file formats.
RVT supports five different blend modes, which can be used to improve the visibility (recognition) of small topographical features. Selected visualizations are are blended (combined, fused) in a consecutive order from bottom to top.
Visualization for archaeological topography calculated combines hillshading (or hillshading from three directions), slope, positive openness and sky-view factor with predetermined calculation and blending settings for ‘normal’ (complex) and very flat terrain. We have selected the visualization methods based on their complementary positive characteristics and the specific blending modes because they amplify these particular characteristics.

 

Vodja projekta

Finančni vir

Slovenian Research Agency ArchaeoLandscapes Europe project funded by the European Commission's Culture programme

Ključne besede

terrain visualization • high resolution DEM • toolbox • lidar • hill-shading • diffuse illumination • sky-view factor