The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
Publications Copernicus
Articles | Volume XXXIX-B4
Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XXXIX-B4, 271–274, 2012
Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XXXIX-B4, 271–274, 2012

  31 Jul 2012

31 Jul 2012


1 L. Cunin, 2 P. Nonin, 3 J. Janoth, and 4 M. Bernard 1 L. Cunin et al.
  • GN Espace , 6 avenue de l’Europe , 31520 Ramonville Saint Agne, France
  • ASTRIUM ASV GEO, 2600 Route des Crêtes , 06905 Sophia Antipolis Cedex, France
  • ASTRIUM ASV GEO Infoterra, D-88039 Friedrichshafen, Germany
  • ASTRIUM ASV GEO, 5 rue des Satellites, BP14359, 31030 Toulouse, France

Keywords: Radar, SPOT, DEM/DTM, Fusion, Precision, Three-dimensional, Quality, Cost

Abstract. On the one hand, onboard SPOT 5, the HRS instrument systematically collects stereopairs around the Globe since 2002. Each stereopair can encompass an area up to 600 km x 120 km within a single pass (i.e. 72 000 km² stereoscopic strips). Covering now more than 120 millions of the Earth landmasses, SPOT 5 stereoscopic imagery has become one of main satellite data sources for accurate DEM extraction, at least where the cloud coverage leaves a chance to do so !

On the other hand, the TerraSAR-X satellite, launched in June 2007, is able to collect radar data through the clouds in several modes. An approach to extract height information by radargrammetry was developed, and the commercial distribution of Digital Elevation Models based on TerraSAR-X StripMap and SpotLight Modes (resp. 3m and 1m resolution) has started in 2010. To improve the overall height accuracy of the DEM, acquisitions from both orbit directions are utilised, each point on the ground being thus imaged at least 4 times by TerraSAR-X.

Since 2002, Spot Image and French National Cartographic Institute (IGN) are building a worldwide database called Elevation30/Reference3D™, which includes a Digital Elevation Model at 1-arc-second resolution (DTED level 2) extracted from HRS stereopairs.

To answer the wide demand of precise DEMs over Tropical and Northern areas, frequently covered by clouds, a study was performed to integrate StripMap radargrammetric TerraSAR-X data into the Reference3D process, and two prototype products were issued, over Colombia and Congo areas. During this experiment, efforts have been made to stick to technical steps that could be integrated within a standardized production process, in order to keep offering affordable prices while maintaining a high standard of horizontal and vertical accuracy.

The DEMs extracted from TerraSAR-X and HRS proved extremely consistent with each other, showing a mean difference of 0.80m. This allows to propose a unified Elevation30 product to the users, with a guaranteed accuracy materialized into the product through a dedicated vertical Accuracy Commitment Mask.