Considerations for ADS Data Process

Considerations for ADS Data Processing
Since raw ADS data (L0) are impacted by atmospheric turbulence and will show corresponding distortions, we
rectify the imagery to a plane of mean terrain height. This removes the vast majority of such distortions, resulting in
a stereo-viewable product (L1). This is carried out on-the-fly by the XPro DSM Extractor.
The ADS provides three panchromatic bands in different viewing angles, in case of the ADS80: 14° backward,
2° forward and 27° forward. For SGM processing, we generally use two stereo pairs, nadir-backward and nadirforward,
with the nadir image being the common base. This allows for filling gaps from occlusions and enables
consistency checks between the stereo pair results. See Gehrke et al. (2010) for further details.
SGM processing is generally carried out in image pyramid levels, mainly to reduce the theoretical range of
potential disparities to the actual area of interest. In fact, the results of a certain minification level are only used to
constrain the range for the subsequent processing steps. Considering the ADS imaging configuration and data
properties, the power of a typical modern workstation computer (or cluster node) as well as the behavior of SGM in
combination with the Sobel-based matching cost, processing is started with 16:1 minified data, which results in an
initial disparity range of ~ 300 for the larger stereo angle.
The very long ADS images are divided into sub-chunks of 8,192 pixels in length and full image width (~ 12,000
L1 pixels). The resulting ~100,000,000 pixels form the input for a DSM extraction job, which is internally processed
in SGM tiles of 1,024 x 1,024 pixels (plus tile overlap) and output into an LAS file (see below). Data processing is
generally carried on a cluster.