速射身管武器外弹道弹丸同时穿过光幕概率分析

doi:10.3969/j.issn.1000-1093.2018.02.022

兵工学报 ›› 2018, Vol. 39 ›› Issue (2): 383-390.doi: 10.3969/j.issn.1000-1093.2018.02.022

速射身管武器外弹道弹丸同时穿过光幕概率分析

陈丁¹，倪晋平¹，李笑娟²

(1.西安工业大学陕西省光电测试与仪器技术重点实验室, 陕西西安710021；2.西安昆仑工业（集团）有限责任公司军品研究所，陕西西安 710043)

收稿日期:2017-08-07 修回日期:2017-08-07 上线日期:2018-04-04
通讯作者: 倪晋平(1965—)，男，教授，博士生导师 E-mail:jpni@263.net
作者简介:陈丁(1982—)，男，高级工程师，博士研究生。E-mail: xatu@vip.qq.com
基金资助:
国家自然科学基金项目（61471289）；陕西省教育厅重点实验室科研计划项目（14JS035）

Analysis of Probability of Exterior Ballistic Projectiles from Rapid-fire Weapon Simultaneously Passing through a Screen

CHEN Ding¹， NI Jin-ping¹， LI Xiao-juan²

(1.Shaanxi Province Key Laboratory of Photoelectric Measurement and Instrument Technology,Xi'an Technological University,Xi'an 710021,Shaanxi,China;2.Military Product Research Institute, Xi'an Kun-lun Industry (Groups) Company Limited, Xi'an 710043,Shaanxi,China)

Received:2017-08-07 Revised:2017-08-07 Online:2018-04-04

摘要/Abstract

摘要： 在速射身管武器射击密集度试验中，一个身管先后射出的多发弹丸可能会同时穿过一个光幕面。在此情况下，某些光电靶测试系统无法测量到弹丸的外弹道参数。为了能获得这些测量值，必须对此现象做出定性分析，为选择出一种合理的光电靶测试系统来提供参考。对弹丸同时穿过光幕的现象做出简化数学描述；基于弹丸速度确定及不确定两种条件，分别构建弹丸同时穿过光幕概率的两种数学模型；根据最优化数学模型获得弹丸同时过幕的概率与其飞行距离的变化规律，确定了弹丸过幕的概率临界距离、直射距离上最大过幕的概率以及任意距离段上弹丸同时过幕的概率3项重要参数。经试验验证，经过合理选择的光电靶测试系统，可避免弹丸同时过幕而对试验数据造成的影响。

关键词: 速射身管武器, 弹丸速度散布, 射击密集度, 外弹道测试, 光电靶测试系统

Abstract: In the firing accuracy and dispersion test of rapid-fire weapon, several projectiles fired from a barrel may pass through a light-screen simultaneously. On this condition, some photoelectric target measurement systems cannot measure the exterior ballistic parameters of these projectiles. A qualitative analysis of this phenomenon should be undertaken to obtain the measured values for choosing a reasonable photoelectric target measurement system. The reduced mathematics description of the phenomenon is presented. The two mathematical models for the probability passing through the screen are established, respectively, based on certain and uncertain velocities of the flying projectiles. The change rule of the passing probability with projectiles’ flight distance is deduced according to the optimization mathematical model, and the three important parameters, such as critical distance involved in the passing probability, maximum probability and passing probability at direct fire distance. Experiments show that the reasonably chosen photoelectric target measurement system can avoid the measurement data being influenced by the projectiles passing through a screen simultaneously. Key

Key words: rapid-fireweapon, projectilevelocitydispersion, firingaccuracyanddispersion, exteriorballistictest, photoelectrictargetmeasurementsystem

中图分类号:

陈丁，倪晋平，李笑娟. 速射身管武器外弹道弹丸同时穿过光幕概率分析[J]. 兵工学报, 2018, 39(2): 383-390.

CHEN Ding， NI Jin-ping， LI Xiao-juan. Analysis of Probability of Exterior Ballistic Projectiles from Rapid-fire Weapon Simultaneously Passing through a Screen[J]. Acta Armamentarii, 2018, 39(2): 383-390.

参考文献

［1］朱森元.小口径速射火炮武器系统发展展望［J］.兵工自动化,2008,27(6):1-4.
ZHU Sen-yuan. Development forecasting for small caliber rapid firing artillery system ［J］. Ordnance Industry Automation, 2008, 27(6): 1-4. (in Chinese)
［2］陶德进,史慧敏,王军,等.基于共有分量分解的速射火炮毁伤概率计算模型［J］.兵工学报,2012, 32(11):1358-1363.
TAO De-jin, SHI Hui-min, WANG Jun, et al.Damage probability calculation model of rapid-fire gun based on common component decomposition［J］.Acta Armamentarii, 2012,32(11):1358-1363.(in Chinese)
［3］ GJB3196.18A—2005k 枪弹实验方法.第18部分:射击密集度［S］.北京:国防科学技术工业委员会,2006．
GJB3196.18A—2005k Test methods of cartridge.Part 18: firing accuracy and dispersion test［S］.Beijing: Commission of Science, Technology and Industry for National Defense,2006.(in Chinese)
［4］董涛,华灯鑫,李言,等.用于三发弹丸同时着靶的集度测量方法［J］.光子学报,2013,42(11):1329-1333．
DONG Tao, HUA Deng-xin, LI Yan, et a1.Method for measuring dispersion of three projectiles impacting simultaneously［J］.Acta Photonica Sinica,2013,42(11)：1329-1333．(in Chinese)
［5］武江鹏,宋萍,郝创博,等.带弹序的弹幕武器立靶密集度测试［J］.光学精密工程,2016,24(3):600-608.
WU Jiang-peng,SONG Ping,HAO Chuang-bo,et al.Study on measurement of vertical target dispersion with target-hitting sequence for barrage weapons［J］.Optics and Precision Engineering,2016,24(3):600-608.(in Chinese)
［6］ GJB3196.29A—2005k 枪弹实验方法.第29部分:速度测试天幕靶法［S］.北京:国防科学技术工业委员会,2006．
GJB3196.29A—2005k Test methods of cartridge.Part 29: velocity measurement-photoelectric screen target method［S］.Beijing: Commission of Science,Technology and Industry for National Defense,2006.(in Chinese)
［7］倪晋平,卢红伟,田会.七光幕阵列测试双管武器立靶密集度方法研究［J］.兵工学报,2013,34(4):398-405.
NI Jin-ping,LU Hong-wei,TIAN Hui.Research on a method of measuring the impact location dispersion of double barrel xannon based on the seven-light-screen array［J］.Acta Armamentarii,2013,34(4):398-405.(in Chinese)
［8］韩子鹏.箭弹外弹道学［M］.北京:北京理工大学出版社,2008:84-126.
HAN Zi-peng. Rocket and bullet exterior ballistics ［M］. Beijing: Beijing Institute of Technology Press, 2008: 84-126.(in Chinese)
［9］韩茹冰,陈化良,田会,等.天幕靶响应时间及高射速响应性能测试方法研究［J］.西安工业大学报,2017, 37(5): 351-356.
HAN Ru-bing,CHEN Hua-liang,TIAN Hui,et al.Study on method for detecting response time and high-speed response performance of sky-screen［J］.Journal of Xi'an Technological University,2017,37(5): 351-356.(in Chinese)
［10］李文彬.超高射频火炮点火控制装置设计及内弹道过程仿真［D］.南京:南京理工大学,2005:23-33.
LI Wen-bin.Design of the ignition control device and simulation of the interior ballistics process of super high firing frequency gun［D］.Nanjing: Nanjing University of Science and Technology,2005:23-33.(in Chinese)
［11］米粮川,刘敏,高树滋.火炮发射时弹丸初速跳角数学描述及试验分析［J］.火炮发射与控制学报,2013(1):1-3.
MI Liang-chuan,LIU Min,GAO Shu-zi. Mathematic description and test analysis on launched projectile muzzle velocity jumping angle during howitzer firing［J］.Journal of Gun Launch & Control,2013(1):1-3.(in Chinese)
［12］刘少伟,郑文荣.速射转管炮射击精度的影响因素及对策［J］.指挥控制与仿真,2012,34(2):105-108.
LIU Shao-wei,ZHENG Wen-rong. Factors influence on firing accuracy and correction for rapid-fire Gatling gun［J］.Command Control & Simulation,2012, 34(2):105-108.(in Chinese)
［13］田会,倪晋平,焦明星.抛物线弹道弹丸飞行参数测量模型与精度分析［J］.仪器与仪表学报,2016,37(1):67-74.
TIAN Hui,NI Jin-ping,JIAO Ming-xing. Projectile flying parameter measurement model of parabolic trajectory and precision analysis［J］. Chinese Journal of Scientific Instrument,2016,37(1): 67-74.(in Chinese)
［14］田会.基于光幕阵列的变速曲线弹道弹丸飞行参数测量方法研究［D］.西安:西安理工大学,2016:31-54.
TIAN Hui. Research on the fight parameters measurement method for projectiles with variable velocity curvilinear trajectory using light-screen array［D］.Xi'an: Xi'an University of Technology,2016:31-54.(in Chinese)
［15］赵树杰,赵建勋.信号检测与估计理论［M］.第2版.北京:电子工业出版社,2013:84-126.
ZHAO Shu-jie,ZHAO Jian-xun. Signal detection and estimation theory［M］.2nd ed. Beijing: Publishing House of Electronic Industry, 2013:84-126.(in Chinese)
［16］ Li H, Lei Z. Projectile two-dimensional coordinate measurement method based on optical fiber coding fire and its coordinate distribution probability［J］. Measurement Science Review, 2013, 13(1): 34-38.
［17］孙守宇.盲信号处理基础及其应用［M］.北京:国防工业出版社,2010:50-92.
SUN Shou-yu. Blind signal processing foundation and its applications［M］.Beijing: National Defense Industry Press,2010: 50-92.(in Chinese)
［18］张贤达.现代信号处理［M］.第2版.北京:清华大学出版社,2002:157-165.
ZHANG Xian-da. Modern signal processing［M］.2nd ed. Beijing: Tsinghua University Press,2002:157-165.(in Chinese)

第39卷
第2期2018 年2月兵工学报ACTA
ARMAMENTARIIVol.39No.2Feb.2018

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[3]	倪晋平, 卢红伟, 田会. 七光幕阵列测试双管武器立靶密集度方法研究[J]. 兵工学报, 2013, 34(4): 398-405.
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[6]	于存贵，乐贵高，马大为. 提高船载火箭炮射击密集度研究[J]. 兵工学报, 2007, 28(6): 646-650.
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速射身管武器外弹道弹丸同时穿过光幕概率分析

Analysis of Probability of Exterior Ballistic Projectiles from Rapid-fire Weapon Simultaneously Passing through a Screen

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