激光角度欺骗干扰效果评估实验研究

王伟柱; 刘志国; 王仕成; 刘硕

doi:doi:10.3788/irla201847.1106007

红外与激光工程, 2018, 47 (11): 1106007, 网络出版: 2019-01-10

激光角度欺骗干扰效果评估实验研究

Evaluation of laser angle deception interference effect based on experiment

论文大纲

王伟柱 ^*刘志国王仕成刘硕

作者单位

火箭军工程大学控制工程系, 陕西西安710025

角度欺骗实验分析干扰效果评估准则 angle deception experiment analysis interference effect assessment criteria

摘要

为实现对激光角度欺骗干扰效果的有效评估, 构建了激光角度欺骗干扰效果评估系统, 详细介绍了目标运动模拟分系统、激光制导导弹模拟分系统和干扰效果评估分系统的结构组成和功能, 并结合干扰效果评估方法, 设计了相关实验, 通过对实验测试数据的详细分析, 对干扰效果进行了评估。实验中, 当激光脉冲周期为50 000 ?滋s时, 设置干扰激光超前制导激光2、3、4、-3 ?滋s, 解算出落点偏差分别为154.14、167.03、174.93、0.52 m; 当激光脉冲周期为51 200 ?滋s时, 设置干扰激光超前制导激光2、-2、3 ?滋s, 解算出落点偏差分别为396.86、0.53、396.86 m。结果表明: 当干扰脉冲超前制导脉冲进入导引头波门模拟器时, 可成功实现对导引头模拟器的干扰, 受干扰后的导引头模拟器只跟踪干扰激光光斑, 而不是干扰激光和指示激光的能量中心。以落点偏差为评估指标, 对干扰效果进行了评估分析, 研究结果可为激光制导对抗评估提供技术支持。

Abstract

In order to realize the effective evaluation of the effect of laser angle deception, the laser angle deception interference effect evaluation system was constructed, and the structure and function of the target motion simulation subsystem, the laser guided missile simulation sub-system and the interference effect evaluation subsystem were introduced in detail. Combined with the interference effect evaluation method, the relevant experiment was designed. Through the detailed analysis of the experimental data, the interference effect was evaluated. In the experiment, when the laser pulse period was 50 000 microseconds, the interference laser was set up 2, 3, 4, and -3 microseconds ahead of guidance laser, and the solutions of point deviations were 154.14, 167.03, 174.93, and 0.52 meters respectively; When the laser pulse period was 51 200 microseconds, the interference laser was set up 2, -2, and 3 microseconds ahead of guidance laser, and the solutions of point deviations were 396.86, 0.53, and 396.86 meters respectively. The results show that the interference of the pilot emitter can be achieved when the interference pulse leading pulse enters the seeker gate simulator. Through this experiment, it was found that the seeker simulator tracks the interference of laser spot itself in laser angle deception interference, rather than the interference laser and indicating the laser energy center. The deviation of the placement point for the assessment of indicators, the interference effect were evaluated and analyzed, and the results can provide technical support for laser guidance and confrontation evaluation.

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王伟柱, 刘志国, 王仕成, 刘硕. 激光角度欺骗干扰效果评估实验研究[J]. 红外与激光工程, 2018, 47(11): 1106007. Wang Weizhu, Liu Zhiguo, Wang Shicheng, Liu Shuo. Evaluation of laser angle deception interference effect based on experiment[J]. Infrared and Laser Engineering, 2018, 47(11): 1106007.

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