Fusion of high-resolution lidar elevation data with hyperspectral data to characterize tree canopies

This paper describes a methodology developed at the Spectral Information Technology Applications Center (SITAC) to combine information derived from high resolution LIDAR elevation data with information derived form hyperspectral data to characterize tree canopies. High resolution elevation data are used to detect abrupt changes in elevation, indicative of man-made structures or certain natural features. The underlying elevation is estimated by first masking out the pertinent structures or features and then interpolating. Structure or feature height is then calculated as the difference between the original elevation and the interpolated elevation. This procedure is applied to a high resolution LIDAR elevation data set of an open forest scene to produce a tree height image. These tree height data are then combined with other tree information to infer trunk diameter. Hyperspectral data are employed to detect as well as characterize man-made and natural structures. Fusion of hyperspectral information with elevation information promises benefits to remote sensing applications.© (2001) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.