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Compressive spectral imaging approach using adaptive coded apertures

Hao Zhang, Xu Ma, Gonzalo R. Arce

2020Applied Optics17 citationsDOIOpen Access PDF

Abstract

The coded aperture snapshot spectral imager (CASSI) acquires three-dimensional spectral images with two-dimensional coded projection measurements. This paper proposes an adaptive design method of the coded apertures, according to a priori knowledge of the target scene, to improve sensing efficiency and imaging performance of the super-resolution CASSI system. The adaptive coded apertures are constructed from the nonlinear thresholding of the grayscale map of the scene. Theoretical proof is provided to demonstrate the superiority of the adaptive coded apertures over traditional random coded apertures. Improvement in reconstruction performance is also verified by a set of simulations based on different spectral data.

Topics & Concepts

Coded apertureComputer scienceSpectral imagingComputer visionArtificial intelligenceOpticsThresholdingA priori and a posterioriCompressed sensingFull spectral imagingIterative reconstructionGrayscaleProjection (relational algebra)Image qualityImage processingSnapshot (computer storage)Aperture (computer memory)Digital micromirror deviceData cubeNonlinear systemMedical imagingAdaptive opticsHyperspectral imagingPhase retrievalAdaptive algorithmZernike polynomialsEncoding (memory)Adaptive filterSparse and Compressive Sensing TechniquesMicrowave Imaging and Scattering AnalysisAdvanced Image Processing Techniques
Compressive spectral imaging approach using adaptive coded apertures | Litcius