地形阻挡条件下对超短波通信电台定位区的计算方法研究
|
摘要
快速、准确计算通信对抗测向定位区,是指挥员定量掌握侦察装备测向、定位效能的重要依据,然而现有定位区计算模型主要基于光滑地面假设,较少考虑由于地形阻挡而产生无法定位的盲区问题,导致现有模型无法适用于山地等存在障碍物的作战环境。为快速甄别盲区,采用了栅格等效的方法,新建了地形阻挡条件下对超短波通信电台可定位区的计算模型,示例分析表明,该模型能有效、快速地对定位盲区做出判断和区分。
Fast and accurate simulation of communication countermeasure effective positioning area,is an important basis for mastering the commander quantitative reconnaissance equipment location,however,the existing location area calculation model based on the assumption of smooth surface,less consideration of the blind location caused by terrain barrier,which leads that existing model cannot be used as obstacles to mountain combat environment. For the rapid screening of blind spots,by using the method of equivalent grid,a new terrain blocking condition of ultrashort wave communication countermeasure effective location area calculation model is set up. Example analysis shows that the model can effectively and quickly judge and distinguish the positioning of the blind.
Fast and accurate simulation of communication countermeasure effective positioning area,is an important basis for mastering the commander quantitative reconnaissance equipment location,however,the existing location area calculation model based on the assumption of smooth surface,less consideration of the blind location caused by terrain barrier,which leads that existing model cannot be used as obstacles to mountain combat environment. For the rapid screening of blind spots,by using the method of equivalent grid,a new terrain blocking condition of ultrashort wave communication countermeasure effective location area calculation model is set up. Example analysis shows that the model can effectively and quickly judge and distinguish the positioning of the blind.
引文
[1]David L.Adamy.EW103:通信电子战[M].楼才义,等译.北京:电子工业出版社,2010.3.
[2]王本才,何友,王国宏,等.双站纯方位定位中相关问题研究[J].光电工程,2012(1):80-87.
[3]邵国培,曹志耀,何俊,等.电子对抗作战效能分析[M].北京:军事科学出版社,2013.
[4]蓝白,韩军,孙晓春.山地战的难点[J].兵器知识,2013(3):15-19.
[5]宋铮,张建华,黄冶,等.天线与电波传播[M].第3版.西安:西安电子科技大学出版社,2016.
[6]程子光,姜礼平,朱建冲,等.基于复杂区域栅格化的传感器网络优化部署[J].军事运筹与系统工程,2012,26(2):32-35.
[7]陈世明,江冀海,吴龙龙,等.受限空间自适应区域栅格化的优化路径规划[J].控制与决策,2012,27(7):1105-1108.
[8]陈丹俊,姬生云.测向定位选站辅助决策模型[J].指挥信息系统与技术,2015,6(1):54-58.
[9]王本才,何友,王国宏,等.双站无源定位最佳配置分析[J].火力与指挥控制,2012,37(2):120-123.
[10]郭建蓬,罗高健,宋广宁.DEM和蜂窝模型的通信干扰压制区快速计算方法[J].火力与指挥控制,2014,39(1):25-26.
[2]王本才,何友,王国宏,等.双站纯方位定位中相关问题研究[J].光电工程,2012(1):80-87.
[3]邵国培,曹志耀,何俊,等.电子对抗作战效能分析[M].北京:军事科学出版社,2013.
[4]蓝白,韩军,孙晓春.山地战的难点[J].兵器知识,2013(3):15-19.
[5]宋铮,张建华,黄冶,等.天线与电波传播[M].第3版.西安:西安电子科技大学出版社,2016.
[6]程子光,姜礼平,朱建冲,等.基于复杂区域栅格化的传感器网络优化部署[J].军事运筹与系统工程,2012,26(2):32-35.
[7]陈世明,江冀海,吴龙龙,等.受限空间自适应区域栅格化的优化路径规划[J].控制与决策,2012,27(7):1105-1108.
[8]陈丹俊,姬生云.测向定位选站辅助决策模型[J].指挥信息系统与技术,2015,6(1):54-58.
[9]王本才,何友,王国宏,等.双站无源定位最佳配置分析[J].火力与指挥控制,2012,37(2):120-123.
[10]郭建蓬,罗高健,宋广宁.DEM和蜂窝模型的通信干扰压制区快速计算方法[J].火力与指挥控制,2014,39(1):25-26.