中国激光, 2019, 46 (8): 0801008, 网络出版: 2019-08-13   

半主动激光制导**的伪随机编码 下载: 958次

Pseudo-Random Coding of Semi-Active Laser-Guided Weapon
作者单位
火箭军工程大学研究生院, 陕西 西安 710025
摘要
通过分析半主动激光制导**特性对激光脉冲间隔编码方法的编码间隔取值要求,研究线性反馈移位寄存器(LFSR)调制码、LFSR状态码的生成原理以及两种码型脉冲间隔的取值范围与产生方法对系统制导性能与抗干扰性能的影响。仿真结果表明,LFSR调制码不利于精确制导,且易被以最小脉冲间隔为周期的精确频率码干扰;LFSR状态码能够克服LFSR调制码的缺陷,但仍存在所需识别参数少和抗干扰性不强的问题。提出基于矩阵求余的伪随机码,利用矩阵代替线性反馈移位寄存器和模二加法器,结果表明,其抗干扰性能比LFSR状态码更好。
Abstract
The requirements of precision guidance characteristics of a semi-active laser-guided weapon on the laser-coded pulse interval ΔTi were analyzed herein based on the pulse interval coding method. The generation principles of( the linear-feedback shift register) (LFSR) modulation code and the LFSR status code were studied and simulated. The guidance and anti-interference performances were studied based on the value range and generation method of the pulse interval ΔTi of two codes. This study reports that the LFSR modulation code is not conducive to accurate guidance and is susceptible to accurate frequency code interference with a minimum pulse interval ΔTmin. The LFSR status code overcomes the problem of poor precision guidance characteristics of the LFSR modulation code, and of being susceptible to accurate frequency code interference with the ΔTmin period; however, the problems that the required identification parameters are few and the anti-interference is not strong still remain. This study uses a matrix to complete the register state transition, instead of the LFSR and the function of the modulo-2 adder, based on finding the coding with a high guidance performance and a strong anti-interference performance. A pseudo-random code based on the matrix remainder is proposed and applied. The theoretical analysis shows that the anti-interference performance of the pseudo-random code is better than that of the LFSR status code.

邱雄, 刘志国, 王仕成. 半主动激光制导**的伪随机编码[J]. 中国激光, 2019, 46(8): 0801008. Xiong Qiu, Zhiguo Liu, Shicheng Wang. Pseudo-Random Coding of Semi-Active Laser-Guided Weapon[J]. Chinese Journal of Lasers, 2019, 46(8): 0801008.

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