Mapping tropical rainforest canopies using multi-temporal spaceborne imaging spectroscopy

Abstract

ABSTRACT The use of imaging spectroscopy for florisic mapping of forests is complicated by the spectral similarity among co-existing species. Here we evaluated an alternative spectral unmixing strategy combining a time series of EO-1 Hyperion images and an automated feature selection strategy in MESM A. Instead of using the same spectral subset to unmix each image pixel, our modified approach allowed the spectral subsets to vary on a per pixel basis such that each pixel is evaluated using a spectral subset tuned towards maximal separability of its specific endmember class combination or species mixture. The potential of the new approach for floristic mapping of tree species in Hawaiian rainforests was quantitatively demonstrated using both simulated and actual hyperspectral image time-series. With a Cohen’s Kappa coefficient of 0.65, our appr oach provided a more accurate tree species map compared to MESMA (Kappa = 0.54). In addition, by the selection of spectral subsets our approach was about 90% faster than MESMA. The flexible or adaptive use of band sets in spectral unmixing as such provides an interesting avenue to address spectral similarities in complex vegetation canopies. Keywords: dimensionality reduction; Earth Observing-1; feature selection; Hawaii; Hyperion; hyperspectral; phenology; Psidium cattleianum ; MESMA; Morella faya ; spectral mixture analysis; temporal unmixing