Three-phase quadrature spectral matching imager using correlation image sensor and wavelength-swept monochromatic illumination

Akira Kimachi; Shogo Nishi; Shigeru Ando; Motonori Doi

doi:10.1117/1.3662425

1 December 2011 Three-phase quadrature spectral matching imager using correlation image sensor and wavelength-swept monochromatic illumination

Akira Kimachi, Shogo Nishi, Shigeru Ando, Motonori Doi

Author Affiliations +

Optical Engineering, Vol. 50, Issue 12, 127208 (December 2011). https://doi.org/10.1117/1.3662425

Abstract

We propose a three-phase spectral matching imager (3PSMI) to realize a novel spectral matching method called quadrature spectral matching (QSM) in real time. The 3PSMI is comprised of the correlation image sensor (CIS) and wavelength-swept monochromatic illumination (WSMI) to perform QSM at each pixel on the CIS at a video frame rate. QSM consists of spectral correlation between an ac component of an object spectrum and an orthonormal pair of reference spectra, being equivalent to projecting the ac object spectrum onto a two-dimensional subspace spanned by the reference spectra. Similarity of the ac object spectrum to the reference spectra is evaluated in terms of the azimuth angle of the projection, independently of the norm of the ac object spectrum as well as spatial intensity distribution of the WSMI. A programable spectral light source is employed to implement the WSMI so that the spectral characteristics of the WSMI and CIS cancel each other and thus do not affect QSM on the 3PSMI. Experimental results confirm that the developed 3PSMI system can distinguish objects with smaller difference in spectral reflectance in real time than RGB imaging with off-the-shelf cameras.

©(2011) Society of Photo-Optical Instrumentation Engineers (SPIE)

Citation Download Citation

Akira Kimachi, Shogo Nishi, Shigeru Ando, and Motonori Doi "Three-phase quadrature spectral matching imager using correlation image sensor and wavelength-swept monochromatic illumination," Optical Engineering 50(12), 127208 (1 December 2011). https://doi.org/10.1117/1.3662425

Published: 1 December 2011

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