Autonomous determination of endmembers in high spatial and spectral resolution data

摘要

Recently, new hyperspectral sensors have become available that provide both high spatial resolution and high spectral resolution. These characteristics combined with high signal to nose ratio allow the differentation of vegetation or minearl types based upon the spectra of small partches of the surface. In this paper, automated endmenber determination methods are applied to high spatial and spectral resolution data from two new sensors, TRWIS III and NVIS. Both of these sneosrs are high quality low noise pushbroom imaging spectrometers that acquire data at 5 to 6 nm resolution from 400 to 2450 nm. The data sets collected will be used for two different applications of the automated determination of endmembers: scene material classification and the detection of spectral anomalies. The NVIS hyperspectral data was collected from approximately 6000 ft above ground level over Cuprite, Nevada, resulting in a footprint of approximately two meters. The TRWIS III data was collected form 1500 meters altitude over mixed agriculture backgrounds in Ventura County, Claiformian, a largely agricultural area about 100 km from Los angeles. After calibration and other pre-processing steps, the data in each case was processed using the N-FINDR algorithm, which extracts endmembers based upon the geometry of convex sets. Once these endmember spectra are found, the image cube can be "unmixed" into fractional aboundances of each material in each pixel. The results of processing this high spatial and spectral resolution data for these two different applications will be presented.