This paper introduces our research in developing a probabilistic model to extract linear terrain features from high resolution DEM (Digital Elevation Model) data. The proposed model takes full advantage of spatio-contextual information to characterize terrain changes. It first derives a quantifiable measure of spatio-contextual patterns of linear terrain feature, such as ridgelines, valley lines and crater boundaries, and then adopts multiple neighborhood analysis and a probability model to address data uncertainty in terrain surface modeling. Different from traditional approaches, the proposed model has the ability to achieve near-automated processing, and to support effective extraction of terrain features in both smooth and rough surfaces. Through a series of experiments, we demonstrate that the proposed approach outperforms existing techniques, including: thresholding, stream/drainage network analysis, visual descriptor, object-based image analysis and edge detection. We hope this work contributes to both the geospatial data science and geomorphology communities with a new way of utilizing high-resolution imagery in terrain analysis.
|Title||A spatio-contextual probabilistic model for extracting linear features in hilly terrain from high-resolution DEM data|
|Authors||Xiran Zhou, Wenwen Li, Samantha Arundel|
|Publication Subtype||Journal Article|
|Series Title||International Journal of Geographical Information Science|
|Record Source||USGS Publications Warehouse|
|USGS Organization||Center for Geospatial Information Science (CEGIS)|