基于不同考核层次的鱼雷反水声对抗试验方法

齐立新; 吴建岚

doi:10.11993/j.issn.1673-1948.2016.03.013

基于不同考核层次的鱼雷反水声对抗试验方法

doi: 10.11993/j.issn.1673-1948.2016.03.013

中国人民解放军91388部队, 广东湛江, 524022

详细信息

作者简介:
齐立新(1967-), 女, 高级工程师, 主要研究方向为武器仿真试验总体.

中图分类号: TJ631.2; TB56
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- 被引次数: 0
出版历程
- 收稿日期: 2016-02-16
- 修回日期: 2016-03-09
- 刊出日期: 2016-06-20

Test Methods for Acoustic Counter-Countermeasure of Torpedo Based on Different Evaluation Grade

91388th Unit, The People′s Liberation Army of China, Zhanjiang 524022, China

摘要

摘要: 针对鱼雷反水声对抗战技指标和功能考核以及反水声对抗作战能力评估2个不同的考核层次需求，提出了在规定条件下通过实航试验验证鱼雷反水声对抗战技指标和功能，在战术背景下以全武器系统使用为前提通过实航试验和仿真试验相结合的手段进行鱼雷反水声对抗作战能力评估的试验方法，并在2种试验方法中明确了试验保障条件需求、试验实施流程和试验结果评估标准或方法。该试验设计思想可直接服务于面向战技指标和作战能力双重考核评估目的下的鱼雷定型试验工程实践，所提出的方法科学合理, 试验方案经济可行，可为未来鱼雷反水声对抗试验鉴定工作提供有益参考。
- 鱼雷 /
- 战技指标和功能 /
- 作战能力 /
- 反水声对抗
Abstract: On the basis of different evaluation grade, two different test methods for acoustic counter-countermeasure of a torpedo were designed. The first method verifies the tactical and technical indexes and function of acoustic coun-ter-countermeasure of a torpedo via sea trial, and the second method evaluates the torpedo operational capability of acoustic counter-countermeasure evaluation based on combination of sea trial and simulation test. The support conditions and implementation procedures of the tests, as well as the method or standard for evaluation of test results, were presented. The design ideas of the two tests can be applied to finalizing test of a torpedo for evaluating both tactical/technical indexes and operational capability of acoustic counter-countermeasure, and the implement procedures of the proposed test methods are economical and feasible. This study may provide a reference for test and evaluation of acoustic counter-countermeasure of a torpedo.
- torpedo /
- tactical and technical index and function /
- operational capability /
- acoustic counter-countermeasure

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参考文献(19)

[1]	杨日杰, 高学强, 韩建辉. 现代水声对抗技术与应用[M]. 北京: 国防工业出版社, 2008.
[2]	张静远. 鱼雷作战使用与作战能力分析[M]. 北京: 国防工业出版社, 2005.
[3]	陈春玉, 张静远, 王明洲, 等. 反鱼雷技术[M]. 北京:国防工业出版社, 2006.
[4]	易红, 何辰, 赵伟, 等. 适合浅海工作的鱼雷自导有关问题探讨[J]. 鱼雷技术, 2006, 14(4): 28-31. Yi Hong, He Chen, Zhao Wei, et al. Discussion of Torpedo Acoustic Homing Operation in the Shallow Water[J]. Torpedo Technology, 2006, 14(4): 28-31.
[5]	天鹰. 中国海军反潜体系的未来建设[J]. 舰载武器, 2011(4): 31-34. Tian Ying. Future Development of the PLA-Navy′s Anti-submarine System[J]. Shipborne Weapons, 2011(4): 31-34.
[6]	何心怡, 钱东, 王光宇, 等. 水文条件对鱼雷声自导作用距离的影响[J]. 鱼雷技术, 2007, 15(5): 33-36. He Xin-yi, Qian Dong, Wang Guang-yu, et al. Influence of Water Conditions on Torpedo Acoustic Homing Range[J]. Torpedo Technology, 2007, 15(5): 33-36.
[7]	朱文振, 叶浩亮, 叶豪杰. 反潜鱼雷对抗能力试验设计与评价方法研究[J]. 计算机测量与控制, 2013, 21(5): 1260-1268. Zhu Wen-zhen, Ye Hao-liang, Ye Hao-jie. Research on Torpedo Underwater Acoustic Warfare Capacity Test[J]. Computer Measurement & Control, 2013, 21(5): 1260- 1268.
[8]	李长军, 王顺意. 潜射自航式声诱饵发射时机与初始航向模型[J]. 鱼雷技术, 2010, 18(6): 471-475. Li Chang-jun, Wang Shun-yi. Models of Launching Opportunity and Initial Course for Mobile Acoustic Decoy Launched by Submarine[J]. Torpedo Technology, 2010, 18(6): 471-475.
[9]	杨日杰, 苗康乐, 韩建辉, 等. 噪声干扰器最佳布放位置与深度研究[J]. 兵工学报, 2014, 35(4): 484-488. Yang Ri-jie, Miao Kang-le, Han Jian-hui, et al. Research on Optimum Location and Depth of Noise Jammer[J]. Acta Armaentarii, 2014, 35(4): 484-488.
[10]	宋志杰, 史秋亮. 潜艇水声对抗原理与应用[M]. 北京:兵器工业出版社, 2002.
[11]	孟庆玉, 张静远, 宋保维. 鱼雷作战效能分析[M]. 北京: 国防工业出版社, 2003.
[12]	吕海涛, 谭鑫, 管启亮. 半实物仿真在水声对抗中的实现方法探讨[J]. 航天电子对抗, 2015, 31(1): 41-44. Lü Hai-tao, Tan Xin, Guan Qi-liang. HWIL Simulation Method in Acoustic Countermeasures[J]. Aerospace Electronic Countermeasure, 2015, 31(1): 41-44.
[13]	潘悦, 皇甫立, 韩澎. 水声对抗系统仿真体系架构分析[J]. 舰船科学技术, 2012, 34(8): 76-78. Pan Yue, Huang Fu-li, Han Peng. Analysis on Simulation Architecture for Acoustic Countermeasure Systems[J]. Ship Science and Technology, 2012, 34(8): 76-78.
[14]	王小宁, 康凤举, 杨虎, 等. 含水声对抗模型的鱼雷武器作战仿真系统[J]. 火力与指挥控制, 2008, 33(4): 90-93. Wang Xiao-ning, Kang Feng-ju, Yang Hu, et al. Study on Combat Simulation System of Torpedo Weapon with Underwater Sound Countermeasure Mode[J]. Fire Control and Command Contrl, 2008, 33(4): 90-93.
[15]	刘淼, 罗修波. 水声对抗仿真系统中的数据分发管理[J]. 舰船科学技术, 2003, 25(6): 46-49. Liu Miao, Luo Xiu-bo. Date Distribution Management in Underwater Acoustic Warfare Simulation System[J]. Ship Science and Technology, 2003, 25(6): 46-49.
[16]	杨云川, 崔怀林, 李志舜. 基于水声物理场的鱼雷制导半实物仿真方法及应用[J]. 系统仿真学报, 2005, 17(3): 755-759. Yang Yun-chuan, Cui Huai-lin, Li Zhi-shun. Simulation Method and Application of Torpedo Homing System HWIL Simulation Based on Underwater Acoustic Field[J]. Journal of System Simulation, 2005, 17(3): 755-759.
[17]	孔德永. 鱼雷武器控制系统半实物仿真系统设计与实现[J]. 四川兵工学报, 2012, 33(6): 1-5.
[18]	刘永丰, 关国枢, 张西建, 等. 鱼雷声寻的制导半实物仿真系统研究与实现[J]. 舰船科学技术, 2003, 25(3): 26-29. Liu Yong-feng, Guan Guo-shu, Zhang Xi-jian, et al. Semi-Physical Simulation System Research and Implementation Approach on Torpedo Acoustical Guidance[J]. Ship Science and Technology, 2003, 25(3): 26-29.
[19]	谭亚新, 王立国, 杨学会, 等. 作战仿真可信性[M]. 北京: 国防工业出版社, 2014.