火力与指挥控制
火力與指揮控製
화력여지휘공제
FIRE CONTROL & COMMAND CONTROL
2015年
4期
169-172
,共4页
无人机%有效可定位区%加权侦察覆盖指数%侦察航路
無人機%有效可定位區%加權偵察覆蓋指數%偵察航路
무인궤%유효가정위구%가권정찰복개지수%정찰항로
unmanned aerial vehicle%effective and locatable area%weighted-reconnaissance-covering index%reconnaissance route
利用无人机瞬时探测范围和无人机对雷达定位精度构建无人机有效可定位区。综合预定区域目标存在概率和沿侦察航路飞行无人机有效可定位区对栅格侦察覆盖指数,构建加权侦察覆盖指数指标。基于加权侦察覆盖指数,对无人机侦察航路优劣进行评价。
利用無人機瞬時探測範圍和無人機對雷達定位精度構建無人機有效可定位區。綜閤預定區域目標存在概率和沿偵察航路飛行無人機有效可定位區對柵格偵察覆蓋指數,構建加權偵察覆蓋指數指標。基于加權偵察覆蓋指數,對無人機偵察航路優劣進行評價。
이용무인궤순시탐측범위화무인궤대뢰체정위정도구건무인궤유효가정위구。종합예정구역목표존재개솔화연정찰항로비행무인궤유효가정위구대책격정찰복개지수,구건가권정찰복개지수지표。기우가권정찰복개지수,대무인궤정찰항로우렬진행평개。
The model of effective and locatable area of UAV is established by integrating the instantaneous probing area and locating accuracy of UAV. The weighted-reconnaissance-covering degree is established by synthesizing the target existence probability of predetermined area and reconnaissance-covering degree of the grid while UAV flying along the reconnaissance route. Based on the weighted-reconnaissance-covering degree,the reconnaissance route of UAV is evaluated.