Title :
Snapshot spectral imaging via compressive random convolution
Author :
Wu, Yao ; Arce, Gonzalo
Author_Institution :
Electr. & Comput. Eng. Dept., Univ. of Delaware, Newark, DE, USA
Abstract :
Spectral imaging is of interest in many applications, including wide-area airborne surveillance, remote sensing, and tissue spectroscopy. Coded aperture spectral snapshot imaging (CASSI) provides an efficient mechanism to capture a 3D spectral cube with a single shot 2D measurement. CASSI uses a focal plane array (FPA) measurement of a spectrally dispersed, aperture coded, source. The spectral cube is then attained using a compressive sensing reconstruction algorithm. In this paper, we explore a new approach referred to as random convolution snapshot spectral imaging (RCSSI). It is based on FPA measurements of spectrally dispersed coherent sources that have been randomly convoluted by a spatial light modulator. The new method, based on the theory of compressive sensing via random convolutions, is shown to outperform traditional CASSI systems in terms of PSNR spectral image cube reconstructions.
Keywords :
image reconstruction; remote sensing; spectroscopy; surveillance; CASSI; FPA measurement; PSNR spectral image cube reconstructions; RCSSI; aperture code; coded aperture spectral snapshot imaging; compressive random convolution; focal plane array; random convolution snapshot spectral imaging; remote sensing; spectrally dispersed coherent sources; tissue spectroscopy; wide-area airborne surveillance; Apertures; Compressed sensing; Convolution; Detectors; Dispersion; Image reconstruction; Imaging; Compressed spectral imaging; coherent illumination; compressed sensing; multispectral imaging;
Conference_Titel :
Acoustics, Speech and Signal Processing (ICASSP), 2011 IEEE International Conference on
Conference_Location :
Prague
Print_ISBN :
978-1-4577-0538-0
Electronic_ISBN :
1520-6149
DOI :
10.1109/ICASSP.2011.5946769
