激光引信双向驱动单发单收大视场探测技术研究

doi:10.3969/j.issn.1000-1093.2013.08.003

兵工学报 ›› 2013, Vol. 34 ›› Issue (8): 942-947.doi: 10.3969/j.issn.1000-1093.2013.08.003

激光引信双向驱动单发单收大视场探测技术研究

甘霖, 张合, 张祥金

南京理工大学智能弹药技术国防重点学科实验室, 江苏南京210094

收稿日期:2013-03-01 修回日期:2013-03-01 上线日期:2013-10-14
作者简介:甘霖(1987—),男,博士研究生。
基金资助:
国家自然科学基金项目(60908037)

Research on Large FOV Single Transceiver Bidirectional-driving Detection Technology for Laser Fuze

GAN Lin, ZHANG He, ZHANG Xiang-jin

ZNDY of Ministerial Key Laboratory, Nanjing University of Science and Technology, Nanjing 210094, Jiangsu, China

Received:2013-03-01 Revised:2013-03-01 Online:2013-10-14

摘要/Abstract

摘要：

由于受系统功耗和空间的限制,常规弹药激光引信无法采取多个激光器和多个激光接收器实现多发多收,同时传统的激光大视场探测方式无法满足小型化、结构简单的需求。提出一种新型的双向驱动单发单收大视场探测方案,建立弹目交汇捕获率数学模型,分析了不同弹目距离以及不同转速下目标捕获率。并针对系统电磁干扰影响因素,采用多种方法复合屏蔽电磁信号对回波信号的干扰,加工制作了原理样机,进行了抗电磁干扰实验以及不同距离动态旋转目标探测实验,结果表明本方案能够有效屏蔽系统电磁干扰,在转速50 000 r/ min 时能保证距离为8 m 的目标可靠捕获,使大视场全向探测激光引信在常规弹药上的应用成为可能。

关键词: 兵器科学与技术, 激光引信, 单发单收, 大视场探测, 目标捕获

Abstract:

Due to the limitations of system power consumption and space, the conventional ammunition laser fuze is unable to use a plurality of lasers and laser receivers for multi-transmitting and multi-receiving,and therefore the traditional large field-of-view (FOV) laser detection method can not meet the requirements of system miniaturization. A new large FOV single transceiver bidirectional-driving detection scheme is proposed,a mathematical model is established, and the target acquisition rates at the different projectile-target distances and the different projectile spin rates are analyzed. For the electromagnetic interference factors, a prototype is manufactured, and a variety of methods are used to shield the electro-magnetic signals. The anti-electromagnetic interference experiment and the detection experiment of targets at different distances are performed. The results show that the scheme can effectively shield the electro-magnetic interference; ensure that a target can be captured at the distance of 8 m when the spin rate of project tile is 50 000 r/ min; and make the application of laser fuze with large FOV detection capability in conventional ammunition possible.

Key words: ordnance science and technology, laser fuze, single transceiver, large field-of-view detection, target acquisition

中图分类号:

TJ43

甘霖, 张合, 张祥金. 激光引信双向驱动单发单收大视场探测技术研究[J]. 兵工学报, 2013, 34(8): 942-947.

GAN Lin, ZHANG He, ZHANG Xiang-jin. Research on Large FOV Single Transceiver Bidirectional-driving Detection Technology for Laser Fuze[J]. Acta Armamentarii, 2013, 34(8): 942-947.

参考文献

[1] 吕华,姚宏宝,陈平. 大视场激光引信目标识别方法研究[J].红外与激光工程,2005,34(3):428 -429. LYU Hua, YAO Hong-bao, CHEN Ping. Target indentifying of large visual angle to the laser fuze[J]. Infrared and Laser Engineering, 2005,34(3):428 -429. (in Chinese) [2] 张正辉,杨明,许士文. 激光引信光束布局方式的选择与分析[J]. 红外与激光工程,2006,35(6):700 -704. ZHANG Zheng-hui,YANG Ming,XU Shi-wen. Analysis of FOV configuration in laser proximity fuze[J]. Infrared and Laser Engineering, 2006, 35(6):700 -704. (in Chinese) [3] 陶敏,王卓,白修宇. 激光引信光束布局方式的选择与分析[J]. 弹箭与制导学报,2007,27(2): 62 -65. TAO Min,WANG Zhuo,BAI Xiu-yu. The choice and analysis of laser fuze beam position[J]. Journal of Projectiles; Rockets; Missiles and Guidance,2007,27(2): 62 -65. (in Chinese) [4] 冉黎林,李全良. 一种空空导弹主动激光近炸引信方案探讨[J]. 航空兵器,2002,(1): 10 -13. RAN Li-lin, LI Xue-liang. Discussion of Active laser proximity fuze for an Air-to-air missile[J]. Aero Weaponry,2002,(1): 10-13. (in Chinese) [5] Gary Buzzard. Modeling the Interaction of a laser target detection device with the sea surface[C]//54th Annual Fuze Conference.Kansas City, Missouri: Association of the United States Army,2010:67 -69. [6] Buzzard G. Development in laser target detection device technology[C]//Second Annual International Missile and Rocke Sympsium.San Antonio: National Defense Industrial Association, 2002: 103 -106. [7] 甘霖,张合,张祥金,等. 激光近炸引信单光束脉冲周向探测技术研究[J]. 红外与激光工程,2013,42(1):85 -89. GAN Lin, ZHANG He, ZHANG Xiang-jin, et al. Study on single-beam pulse circumferential detection technology of laser proximity fuze[J]. Infrared and Laser engineering, 2013,42(1):85-89. (in Chinese) [8] 冯颖, 张合, 张祥金. 脉冲激光引信发射接收模块电磁干扰与电磁兼容技术研究[J]. 强激光与粒子束, 2001, 23(1):250 -254. FENG Ying, ZHANG He, ZHANG Xiang-jin. Electromagnetic interference technique of transmitter and receiver modules for pulsed laser fuze[J]. High Power Laser and Part Icle Beams, 2001,23(1):250 -254. (in Chinese)

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激光引信双向驱动单发单收大视场探测技术研究

Research on Large FOV Single Transceiver Bidirectional-driving Detection Technology for Laser Fuze

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