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Proceedings Paper

A small, low-cost, hyperspectral imaging FTIR sensor design for standoff detection applications
Author(s): Thomas Gruber Jr.; Brad Moore; Brian Tercha; Ryan Bowe
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Paper Abstract

Hyperspectral imaging (HSI) sensors allow standoff visualization and identification of chemical vapor plumes; however, currently available COTS sensors, which produce very high quality data, are expensive(>$750k), large(>100 L), and massive( >30 kg). Man-portable and UAV based hyperspectral sensor applications require smaller and lighter weight designs. An approach using new technologies, including a microbolometer IR camera, a piezo-electric linear actuator, a FPGA/LAN board, and an embedded multi-core CPU, is presented that seeks to produce similar quality hyperspectral data at a 10x cost reduction, 3x size reduction (<30 L), and a 3x mass reduction (<10 kg for optics and electronics). The design challenges, system overview, and initial performance data measurements from the new spectrometer designs are presented. An overview of the data cube signal processing, including spatial co-adding, re-sampling of the interferogram data point spacing, phase correction, and detection algorithms, is presented. The spectrometer optical design was also tested by temporarily installing a single pixel MCT detector in order to make spectral resolution comparisons with a traditional FTIR spectrometer.

Paper Details

Date Published: 17 May 2012
PDF: 10 pages
Proc. SPIE 8374, Next-Generation Spectroscopic Technologies V, 83740B (17 May 2012); doi: 10.1117/12.919159
Show Author Affiliations
Thomas Gruber Jr., MESH, Inc. (United States)
Brad Moore, MESH, Inc. (United States)
Brian Tercha, MESH, Inc. (United States)
Ryan Bowe, MESH, Inc. (United States)

Published in SPIE Proceedings Vol. 8374:
Next-Generation Spectroscopic Technologies V
Mark A. Druy; Richard A. Crocombe, Editor(s)

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