Adaptive infrared counter-countermeasure for two-color spinning concentric-annular-ring reticle seeker

HyunKi Hong; SurngGabb Jahng; KyoungSoo Doo; Jong Soo Choi; Sung-Hyun Han

doi:10.1117/1.1367344

1 June 2001 Adaptive infrared counter-countermeasure for two-color spinning concentric-annular-ring reticle seeker

HyunKi Hong, SurngGabb Jahng, KyoungSoo Doo, Jong Soo Choi, Sung-Hyun Han

Optical Engineering, Vol. 40, Issue 6, (June 2001). https://doi.org/10.1117/1.1367344

This paper presents a dynamic simulation loop that gives tracking results for a two-color concentric annular ring (CAR) reticle seeker. Our simulation tool includes a target flare model and a proportional navigation guidance loop. The CAR reticle system's performance and the flare effects are analyzed in various scenarios. When a flare is present in the field of view, the simulation results show that the reticle seeker cannot maintain precise target tracking. We propose a two-color countercountermeasure using the least-mean-square method to cope with a presence of infrared (IR) flares. The proposed method makes use of simultaneous processing of the modulation output in two IR wavelength bands. One is the midwave IR (a primary input signal), and the other is the shortwave IR (a reference input signal). Simulation results have shown that our adaptive algorithm can achieve effective cancellation of flare signals with high intensity.

©(2001) Society of Photo-Optical Instrumentation Engineers (SPIE)

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HyunKi Hong, SurngGabb Jahng, KyoungSoo Doo, Jong Soo Choi, and Sung-Hyun Han "Adaptive infrared counter-countermeasure for two-color spinning concentric-annular-ring reticle seeker," Optical Engineering 40(6), (1 June 2001). https://doi.org/10.1117/1.1367344

Published: 1 June 2001

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