光电技术应用, 2019, 34 (2): 60, 网络出版: 2019-05-13
激光制导**半实物仿真光束变换与控制
Beam Transform and Control Technology for Hardware-in-the-loop Simulation of Laser-Guided Weapon
半实物仿真 激光制导 光斑能量 光斑尺寸 hardware-in-the-loop simulation laser-guided energy of laser facular size of laser facular
摘要
根据相似性原理, 分析了激光制导**半实物仿真中激光指示目标的动态特性模拟要求, 提出了偏振方式实现光斑能量的连续变化, 望远光学系统实现光斑尺寸连续变化的技术方案。测试结果表明, 光斑能量动态调节范围大于104倍、动态调节误差小于5%, 光斑尺寸动态调节范围不小于20倍、动态调节误差小于10%, 能够满足激光制导**半实物仿真的要求。
Abstract
According to similarity principle, the dynamic characteristic simulation requirements of laser indication target in hardware-in-the-loop simulation of laser-guided weapon are analyzed. The continuous various of laser facular energy realized by polarization method is proposed. The continuous various technology scheme is realized by a telescopic optical system. Testing results show that the dynamic range of the facular energy is more than 104 times, dynamic error is less than 5%, the dynamic range of facular size is not less than 20 times and dynamic error is less than 10%, which can meet the requirements of hardware-in-the-loop simulation of laser-guided weapons.
王云萍. 激光制导**半实物仿真光束变换与控制[J]. 光电技术应用, 2019, 34(2): 60. WANG Yun-ping. Beam Transform and Control Technology for Hardware-in-the-loop Simulation of Laser-Guided Weapon[J]. Electro-Optic Technology Application, 2019, 34(2): 60.