Chemical agent standoff detection and identification with a hyperspectral imaging infrared sensor

Philippe Lagueux; Alexandre Vallières; André Villemaire; Martin Chamberland; Vincent Farley; Jean Giroux

doi:10.1117/12.833478

24 September 2009 Chemical agent standoff detection and identification with a hyperspectral imaging infrared sensor

Philippe Lagueux, Alexandre Vallières, André Villemaire, Martin Chamberland, Vincent Farley, Jean Giroux

Proceedings Volume 7486, Optics and Photonics for Counterterrorism and Crime Fighting V; 74860C (2009) https://doi.org/10.1117/12.833478
Event: SPIE Security + Defence, 2009, Berlin, Germany

Abstract

Standoff detection, identification and quantification of chemical agents are fundamental needs in several fields of applications. Additional required sensor characteristics include high sensitivity, low false alarms and high-speed (ideally real-time) operation, all in a compact and robust package. The thermal infrared portion of the electromagnetic spectrum has been utilized to implement such chemical sensors, either with spectrometers (with none or moderate imaging capability) or with imagers (with moderate spectral capability). Only with the recent emergence of high-speed, large format infrared imaging arrays, has it been possible to design chemical sensors offering uncompromising performance in the spectral, spatial, as well as the temporal domain. Telops has developed an innovative instrument that can not only provide an early warning for chemical agents and toxic chemicals, but also one that provides a "Chemical Map" in the field of view. To provide to best field imaging spectroscopy instrument, Telops has developed the FIRST, Field-portable Imaging Radiometric Spectrometer Technology, instrument. This instrument is based on a modular design that includes: a high-performance infrared FPA and data acquisition electronics, onboard data processing electronics, a high-performance Fourier transform modulator, dual integrated radiometric calibration targets and a visible boresight camera. These modules, assembled together in an environmentally robust structure, used in combination with Telops' proven radiometric and spectral calibration algorithms make this instrument a world-class passive standoff detection system for chemical imaging. This paper presents chemical detection and identification results obtained with the FIRST sensor.

Citation Download Citation

Philippe Lagueux, Alexandre Vallières, André Villemaire, Martin Chamberland, Vincent Farley, and Jean Giroux "Chemical agent standoff detection and identification with a hyperspectral imaging infrared sensor", Proc. SPIE 7486, Optics and Photonics for Counterterrorism and Crime Fighting V, 74860C (24 September 2009); https://doi.org/10.1117/12.833478

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