Single-shot compressive spectral imaging with a dual-disperser architecture | Zendy

Michael E. Gehm | Zendy; Renu John | Zendy; David J. Brady | Zendy; Rebecca Willett | Zendy; Timothy J. Schulz | Zendy

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Single-shot compressive spectral imaging with a dual-disperser architecture

Author(s) -

Michael E. Gehm,

Renu John,

David J. Brady,

Rebecca Willett,

Timothy J. Schulz

Publication year - 2007

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.15.014013

Subject(s) - optics , spectral imaging , compressed sensing , computer science , coded aperture , filter (signal processing) , binary number , materials science , physics , computer vision , detector , artificial intelligence , mathematics , arithmetic

This paper describes a single-shot spectral imaging approach based on the concept of compressive sensing. The primary features of the system design are two dispersive elements, arranged in opposition and surrounding a binary-valued aperture code. In contrast to thin-film approaches to spectral filtering, this structure results in easily-controllable, spatially-varying, spectral filter functions with narrow features. Measurement of the input scene through these filters is equivalent to projective measurement in the spectral domain, and hence can be treated with the compressive sensing frameworks recently developed by a number of groups. We present a reconstruction framework and demonstrate its application to experimental data.

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