Abstract
Infrared (IR) target signatures and background scenes are mainly used for military research purposes such as reconnaissance and detection of enemy targets in modern IR imaging systems like IR search and track (IRST) system. For understanding and analyzing IR signatures and backgrounds in the IR imaging systems, an IR wavelength band (WB) conversion which transforms an arbitrary WB image to another WB is very important in the absence of equipment by WB. In addition, IR image synthesis of targets and backgrounds can provide a great deal of information in the IR target detection field. However, the WB conversion is actually a very challenging research due to lack of information on the absorptivity and transmittance of enormous components of an object or atmosphere. In addition, the radiation and reflectance characteristics of short-wave IR (SWIR)-WB are very different from those of long-wave IR (LWIR)-WB and middle-wave IR (MWIR)-WB. Therefore, the WB conversion in this paper is limited only to IR target signatures and monotonous backgrounds, which is commonly used for military purposes, at a long distance. This paper proposes an IR synthesis method for generating a synthesized IR image of three IR-WBs by synthesizing an IR target signature and a real background scene for an arbitrary IR-WB. In the proposed method, each temperature information is first estimated from an IR target signature and IR background image for an arbitrary IR-WB, and then a synthesized temperature image is generated by combining the respective temperature information estimated from the IR target signature and background scene. Finally, the synthesized temperature image is transformed into an IR radiance image of three IR-WBs. Through the proposed method, various IR synthesis experiments are performed for various IR target signature and background scenes.
Highlights
Due to easy investigation and cost reduction in principle establishment and performance evaluation for functionality of an IR system, the demand for IR simulators is quickly increasing for military purpose research
The basic materials for analyzing arbitrary IR system are IR target and background images which are transformed as IR signatures with an intensity distribution corresponding to the temperature range of the IR target and background scene
In the short-wave IR (SWIR)-wavelength band (WB) of Figures 6(c) and 6(f), the approximately estimated temperature is higher than the compensated temperature from 300 K to 500 K
Summary
Due to easy investigation and cost reduction in principle establishment and performance evaluation for functionality of an IR system, the demand for IR simulators is quickly increasing for military purpose research. Because the directed jammer utilizes high luminance lamps (or laser) for converging the jamming energy upon the missile seeker, it can emit the jamming energy continuatively without wasting. It can immediately counteract the missile seekers for tracking and attacking flying targets such as aircrafts or helicopters. This paper proposes an IR synthesis method for generating an IR image of three WBs by synthesizing a modeled (or actual) IR target and real IR background image for arbitrary. The IR image of the desired IR-WB is produced from the radiance image
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