Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data

Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data

Detecting and identifying weak gaseous plumes using thermal imaging data is complicated by many factors. These include variability due to atmosphere, ground and plume temperature, and background clutter. This paper presents an analysis of one formulation of the physics-based radiance model, which de...

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Bibliographic Details
Main Authors: Candace Metoyer, Mark Tardiff, Larry Chilton, Stephen Walsh
Format: Article
Language:English
Published: MDPI AG 2008-10-01
Series:Sensors
Subjects:
plumes
signal
emissivity
clutter
temperature
LWIR
hyperspectral
Signal-to- Clutter Ratio
Online Access:http://www.mdpi.com/1424-8220/8/10/6471/
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spelling doaj-ae62ce7755e44a73b08bd81ae25e0e9b2020-11-25T01:26:59ZengMDPI AGSensors1424-82202008-10-018106471648310.3390/s8106471Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image DataCandace MetoyerMark TardiffLarry ChiltonStephen WalshDetecting and identifying weak gaseous plumes using thermal imaging data is complicated by many factors. These include variability due to atmosphere, ground and plume temperature, and background clutter. This paper presents an analysis of one formulation of the physics-based radiance model, which describes at-sensor observed radiance. The background emissivity and plume/ground temperatures are isolated, and their effects on chemical signal are described. This analysis shows that the plume’s physical state, emission or absorption, is directly dependent on the background emissivity and plume/ground temperatures. It then describes what conditions on the background emissivity and plume/ground temperatures have inhibiting or amplifying effects on the chemical signal. These claims are illustrated by analyzing synthetic hyperspectral imaging data with the adaptive matched filter using two chemicals and three distinct background emissivities.http://www.mdpi.com/1424-8220/8/10/6471/plumessignalemissivitycluttertemperatureLWIRhyperspectralSignal-to- Clutter Ratio
collection DOAJ
language English
format Article
sources DOAJ
author Candace Metoyer
Mark Tardiff
Larry Chilton
Stephen Walsh
spellingShingle Candace Metoyer
Mark Tardiff
Larry Chilton
Stephen Walsh
Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data
Sensors
plumes
signal
emissivity
clutter
temperature
LWIR
hyperspectral
Signal-to- Clutter Ratio
author_facet Candace Metoyer
Mark Tardiff
Larry Chilton
Stephen Walsh
author_sort Candace Metoyer
title Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data
title_short Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data
title_full Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data
title_fullStr Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data
title_full_unstemmed Effect of the Temperature-Emissivity Contrast on the Chemical Signal for Gas Plume Detection Using Thermal Image Data
title_sort effect of the temperature-emissivity contrast on the chemical signal for gas plume detection using thermal image data
publisher MDPI AG
series Sensors
issn 1424-8220
publishDate 2008-10-01
description Detecting and identifying weak gaseous plumes using thermal imaging data is complicated by many factors. These include variability due to atmosphere, ground and plume temperature, and background clutter. This paper presents an analysis of one formulation of the physics-based radiance model, which describes at-sensor observed radiance. The background emissivity and plume/ground temperatures are isolated, and their effects on chemical signal are described. This analysis shows that the plume’s physical state, emission or absorption, is directly dependent on the background emissivity and plume/ground temperatures. It then describes what conditions on the background emissivity and plume/ground temperatures have inhibiting or amplifying effects on the chemical signal. These claims are illustrated by analyzing synthetic hyperspectral imaging data with the adaptive matched filter using two chemicals and three distinct background emissivities.
topic plumes
signal
emissivity
clutter
temperature
LWIR
hyperspectral
Signal-to- Clutter Ratio
url http://www.mdpi.com/1424-8220/8/10/6471/
work_keys_str_mv AT candacemetoyer effectofthetemperatureemissivitycontrastonthechemicalsignalforgasplumedetectionusingthermalimagedata
AT marktardiff effectofthetemperatureemissivitycontrastonthechemicalsignalforgasplumedetectionusingthermalimagedata
AT larrychilton effectofthetemperatureemissivitycontrastonthechemicalsignalforgasplumedetectionusingthermalimagedata
AT stephenwalsh effectofthetemperatureemissivitycontrastonthechemicalsignalforgasplumedetectionusingthermalimagedata
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