Imaging Spectroscopy

Basically, hyperspectral imaging, or imaging spectroscopy, is a happy fusion of spectroscopy and imaging processing. Hyperspectral imaging can be seen either as an extension of classical image processing or an enhancement of classical spectroscopy.

The simplest case is using a black and white camera that captures the grey-scale values of objects - yielding high surface resolution but no spectral information. A color camera, on the other hand, with three image sensors or a sensor with Bayer color filter, will deliver a multi-spectral image with comparably high spatial resolution and three relatively broad-band color channels of red, green and blue, yet with a relatively low spectral resolution. Finally, a spectral imaging system - it operates with just one sensor and a tunable narrow-band filter placed in the optical path to select a frequency. Alternatively, it functions as a so called push-broom scanner to perform, usually via mechanical feed of test object or spectrometer, a line-based scan. For every pixel in every line, the spectrum is captured and stored.

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