反潜巡逻机布设声纳浮标拦截阵对潜搜索建模与仿真
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摘要
反潜巡逻机使用声纳浮标拦截阵进行对潜搜索,可以有效对敌潜艇可能通过的航道实施拦截或封锁,为我重要海域担任防潜警戒;而分析拦截阵的搜索概率和影响因素是提高搜潜效率的核心问题。根据搜潜态势想定,建立反潜巡逻机使用声纳浮标拦截阵对潜搜索的模型,计算并分析了浮标布放间距、潜艇散布扇面角、浮标阵位置和浮标位置点误差四个因素对搜潜概率的影响,为反潜巡逻机使用拦截阵搜潜的合理使用提供了有效参考。
The anti submarine patrol machine uses the sonobuoy interception array to search the submarine. It can effectively intercept or blockade the possible channel that the enemy submarine may pass. It serves as an anti submarine alert for the important sea area,and the analysis of the search probability and the influence factors of the interceptor array is the core problem of improving the search efficiency. According to search potential scenarios,it established model of antisubmarine patrol aircraft searching submarine by laying sonobuoy interception array. The influence of four factors on the probability of the search submarine is calculated and analyzed,which are the space of the buoy distribution,the fan surface angle,the buoy array position and the buoy position point error,which can be used for the rational use of the interception array for the antisubmarine patrol aircraft. It provides an effective reference.
The anti submarine patrol machine uses the sonobuoy interception array to search the submarine. It can effectively intercept or blockade the possible channel that the enemy submarine may pass. It serves as an anti submarine alert for the important sea area,and the analysis of the search probability and the influence factors of the interceptor array is the core problem of improving the search efficiency. According to search potential scenarios,it established model of antisubmarine patrol aircraft searching submarine by laying sonobuoy interception array. The influence of four factors on the probability of the search submarine is calculated and analyzed,which are the space of the buoy distribution,the fan surface angle,the buoy array position and the buoy position point error,which can be used for the rational use of the interception array for the antisubmarine patrol aircraft. It provides an effective reference.
引文
1张智炜,徐远新,吴涛.被动声纳浮标阵对潜跟踪方法及定位能力研究.系统仿真技术及其应用,2009;(11):788-791Zhang Zhiwei,Xu Yuanxin,Wu Tao.Study on the method of passive sonar buoys following submarine continuously and the ability of orientation.System Simulation Technology and Application,2009;11:788-791
2梁巍,杨日杰,熊雄.被动定向声纳浮标跟踪潜艇优化布放.兵工自动化,2017;36(10):43-45Liang Wei,Yang Rijie,Xiong Xiong.Optimal deployment of passive directional sonobuoy in underwater target tracking.Ordnance Industry Automation,2017;36(10):43-45
3屈也频,廖瑛.潜艇位置散布规律与搜潜效能评估模型研究.系统仿真学报,2008;20(12):3280-3282Qu Yepin,Liao Ying.Research on modeling of submarine's position distribution and search probability in antisubmarine warfare.Journal of System Simulation,2008;20(12):3280-3282
4杨日杰,周旭,曾海燕.被动全向声纳浮标跟踪潜艇的优化布放方法.指挥控制与仿真,2011;33(5):81-83Yang Rijie,Zhou Xu,Zeng Haiyan.Optimal deployment of passive omnidirectional sonobuoys in the underwater target tracking.Command Control&Simulation,2011;33(5):81-83
5陈庆风,鞠建波,赵明.反潜巡逻线中声纳浮标的作战使用与搜潜方法.火力与指挥控制,2011;36(9):112-114Chen Qingfeng,Ju Jianbo,Zhao Ming.Using and detection methods of sonobuoy in searching submarine at beat.Fire Control&Command Control,2011;36(9):112-114
6丛红日,褚政,粘松雷.网格形声纳浮标阵及其搜索效能评估.电光与控制,2017;11:39-41Cong Hongri,Chu Zheng,Nian Songlei.Grid sonobuoy array and its searching efficiency evaluation.Electronics Optics&Control,2017;11:39-41
7赵志允,孙明太,韩强.潜艇运动对被动声纳浮标搜索的影响.指挥控制与仿真,2013;35(5):51-53Zhao Zhiyun,Sun Mingtai,Han Qiang.Influence of submarine movement on passive sonobuoy detection.Command Control&Simulation,2013;35(5):51-53
8袁杰,丛红日,李琰.监听时间对声纳浮标阵检查性搜索效能影响仿真.海军航空工程学院学报,2010;(6):22-25Yuan Jie,Cong Hongri,Li Yan.Simulating on Influence of monitoring time on search efficiency of sonobuoy array in checking anti-submarine.Journal of Naval Aeronautical and Astronautical University,2010;6:22-25
9戚学文,严建钢,金复鑫.直升机声纳浮标包围阵搜潜模型研讨.电光与控制,2013;20(12):11-13Qi Xuewen,Yan Jiangang,Jin Fuxin.Submarine searching models for helicopters'encircled sonobuoy array.Electronics Optics&Control,2013;20(12):11-13
10许爱强,盛沛,谭勖.机载浮标搜潜系统搜潜效能评估模型.兵工自动化,2011;30(8):43-45Xu Aiqiang,Sheng Pei,Tan Xu.A model for evaluating submarine reconnaissance effectiveness of air-borne buoy submarine reconnaissance system.Ordnance Industry Automation,2011;30(8):43-45
2梁巍,杨日杰,熊雄.被动定向声纳浮标跟踪潜艇优化布放.兵工自动化,2017;36(10):43-45Liang Wei,Yang Rijie,Xiong Xiong.Optimal deployment of passive directional sonobuoy in underwater target tracking.Ordnance Industry Automation,2017;36(10):43-45
3屈也频,廖瑛.潜艇位置散布规律与搜潜效能评估模型研究.系统仿真学报,2008;20(12):3280-3282Qu Yepin,Liao Ying.Research on modeling of submarine's position distribution and search probability in antisubmarine warfare.Journal of System Simulation,2008;20(12):3280-3282
4杨日杰,周旭,曾海燕.被动全向声纳浮标跟踪潜艇的优化布放方法.指挥控制与仿真,2011;33(5):81-83Yang Rijie,Zhou Xu,Zeng Haiyan.Optimal deployment of passive omnidirectional sonobuoys in the underwater target tracking.Command Control&Simulation,2011;33(5):81-83
5陈庆风,鞠建波,赵明.反潜巡逻线中声纳浮标的作战使用与搜潜方法.火力与指挥控制,2011;36(9):112-114Chen Qingfeng,Ju Jianbo,Zhao Ming.Using and detection methods of sonobuoy in searching submarine at beat.Fire Control&Command Control,2011;36(9):112-114
6丛红日,褚政,粘松雷.网格形声纳浮标阵及其搜索效能评估.电光与控制,2017;11:39-41Cong Hongri,Chu Zheng,Nian Songlei.Grid sonobuoy array and its searching efficiency evaluation.Electronics Optics&Control,2017;11:39-41
7赵志允,孙明太,韩强.潜艇运动对被动声纳浮标搜索的影响.指挥控制与仿真,2013;35(5):51-53Zhao Zhiyun,Sun Mingtai,Han Qiang.Influence of submarine movement on passive sonobuoy detection.Command Control&Simulation,2013;35(5):51-53
8袁杰,丛红日,李琰.监听时间对声纳浮标阵检查性搜索效能影响仿真.海军航空工程学院学报,2010;(6):22-25Yuan Jie,Cong Hongri,Li Yan.Simulating on Influence of monitoring time on search efficiency of sonobuoy array in checking anti-submarine.Journal of Naval Aeronautical and Astronautical University,2010;6:22-25
9戚学文,严建钢,金复鑫.直升机声纳浮标包围阵搜潜模型研讨.电光与控制,2013;20(12):11-13Qi Xuewen,Yan Jiangang,Jin Fuxin.Submarine searching models for helicopters'encircled sonobuoy array.Electronics Optics&Control,2013;20(12):11-13
10许爱强,盛沛,谭勖.机载浮标搜潜系统搜潜效能评估模型.兵工自动化,2011;30(8):43-45Xu Aiqiang,Sheng Pei,Tan Xu.A model for evaluating submarine reconnaissance effectiveness of air-borne buoy submarine reconnaissance system.Ordnance Industry Automation,2011;30(8):43-45