Invariants of the LWIR thermophysical model

Author

Arnold, D. Gregory ; Sturtz, Kirk ; Velten, Vince

Author_Institution

Res. Lab., WPAFB, OH, USA

fYear

1999

fDate

1999

Firstpage

49

Lastpage

58

Abstract

The temperature of a surface viewed by a long-wave infrared camera can be predicted by a thermophysical model (a conservation of energy statement at the surface of a unit volume). However this prediction currently requires at least 24 hours of previous imagery in order to estimate the parameters of the model. Absolute invariants, relative invariants, and quasi-invariants provide three possible methods for circumventing this obstacle. Lie group analysis is a fundamental tool for systematically exploring invariance and for finding the appropriate transformations groups. This paper discusses the relevant parts of Lie group analysis and uses them to find the transformation groups and absolute invariants of the thermophysical model. The goal is to recognize objects based upon a composition of materials that are identified using invariant features of infrared imagery

Keywords

Lie algebras; computer vision; infrared imaging; parameter estimation; LWIR thermophysical model; Lie group analysis; invariants; long-wave infrared camera; parameters estimation; quasi-invariants; relative invariants; Acoustic sensors; Aerospace electronics; Cameras; Equations; Heat transfer; Image recognition; Kirk field collapse effect; Parameter estimation; Target recognition; Temperature;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Vision Beyond the Visible Spectrum: Methods and Applications, 1999. (CVBVS '99) Proceedings. IEEE Workshop on

Conference_Location

Fort Collins, CO

Print_ISBN

0-7695-0050-1

Type

conf

DOI

10.1109/CVBVS.1999.781094

Filename

781094