1) intelligent minefield
智能雷场
1.
Based on the basic hypothesis of large-scale tank targets and intelligent minefield and according to random serving system theory,operation efficiency on intelligent minefield for large-scale tank is proposed.
在提出集群坦克和智能雷场基本假设的基础上,根据随机服务系统理论,建立了智能雷场对集群坦克的作战效能模型,分析了编队内坦克间距对智能雷场作战效能的影响。
2.
Based on putting forward basic hypothesis of large-scale tank targets and intelligent minefield,according to random serving system theory,operation efficiency on intelligent minefield for large-scale tank is built.
文中在提出集群坦克和智能雷场基本假设的基础上,根据随机服务系统理论,建立了智能雷场对集群坦克的作战效能模型,分析了坦克目标速度变化对智能雷场作战效能的影响。
2) anti-tank intelligent minefield
反坦克智能雷场
1.
From the analysis above, we concludes the model of queuing theory of anti-tank intelligent minefield′s operation efficiency analysis.
为反坦克智能雷场的设计、优化及进一步进行作战效能分析提供基础和依据。
3) intelligent mine
智能雷
1.
Computer Simulation On Flying Dynamics Of Intelligent Mine;
智能雷飞行动力学计算机仿真
2.
In order to evaluate the influence of multiple explosively formed penetrator(MEFP) design parameters on the killing probability of intelligent mine,finite element method software was used to simulate formation of MEFP.
为了评估多爆炸成型弹丸设计参数对智能雷毁伤目标效能的影响,利用有限元软件模拟了多爆炸成型弹丸的形成过程。
3.
Taking intelligent mine for research object,on the basis of scanning movement model and hitting damage model,the damage efficiency of MEFP intelligent mine attacking to tank was analyzed.
以智能雷为研究对象,在建立智能雷扫描运动模型和命中毁伤模型的基础上,分析了MEFP智能雷攻击坦克的毁伤效能。
4) smart mine
智能雷弹
1.
Aimed at the angle legging defect existed in the acoustic location of high speed moving object by smart mine,the estimate of object flying track and coefficient recursion algorithm in flying module are developed in the paper.
文中针对智能雷弹对高速运动目标声定位存在一定角滞后的缺陷,开展了雷弹对目标的飞行轨迹的估计以及对飞行模型中的系数的递推算法,进而对单自由度和双自由度雷弹的拦截方位进行了预测。
2.
Aimed at the problem of low elevation angle precision under the condition of plane array and small elevation angle of smart mine′s passive acoustic detection,high-low quaternion array is brought forward,and the locating algorithm of the array is deduced.
针对智能雷弹被动声探测的对平面阵小仰角时对仰角估计精度低的问题,提出了采用空间高低四元阵,推导了该阵型的基本定位算法,并利用冗余声程差对算法进行了优化,并利用分别适合于低仰角和高仰角的算式进行加权平均,提高了仰角的探测精度,使其更具有实用性。
3.
After the placement of the smart mine,the early-warning system starts on working,it must keep detecting and recognizing,so it is high power-consume,in order to maintain its ability of inspection and defense,it must be a low power system.
智能雷弹投放后,预警系统就进入工作状态,对目标不断进行探测和识别,能耗较高,为保证其长时间监测防御能力,预警系统必须是低功耗甚至是微功耗的。
5) intelligent mine
智能地雷
1.
According to analyzing the characteristic and work theory of millimeter wave detection,discusses the feasibility of detection technology of millimeter wave using in intelligent mine s target detection,target orientation;communications of mine field,identifies enemy and oneself and self of seeking object of battle disposition.
通过对毫米波探测的特点及工作原理的分析,研究论述毫米波探测技术应用于智能地雷的目标探测、定位;雷场通信,敌我识别;攻击装药的自寻的上的可行性。
2.
This technique is more mature and cheaper than the imaging means fitting into the intelligent mine detection.
在分析被动毫米波探测目标工作原理的基础上,建立了被动毫米波探测目标的数学模型,根据波形特点给出目标识别的实现方案,这种毫米波被动敏感器可以较准确地探测识别巡航导弹,技术较成像探测方法成熟低廉,适合于智能地雷应用。
3.
Passive acoustic DoA(Direction-of-Arrival)estimate using acoustic sensor array is a kind of key technology in intelligent mine system.
被动声定位是智能地雷的关键技术之一 ,其中声传感器阵列测向确定了目标的方位角信息。
6) smart mine
智能雷
1.
The evaluation system on anti helicopter smart mine warhead s overall efficiency is presented in the article.
给出了反直升机智能雷战斗部总体效能的评价体系 。
2.
The thesis emphasizes on improving the veracity and reliability of target identification in smart mine by adopting the multisensors data fusion theory and methods, based on the means of smart mine in existence.
智能雷是现代战争背景下提出的一种新概念弹药武器,论文在现有智能雷的声目标识别技术基础上,结合被广泛研究和应用的多传感器数据融合进行研究,重点提高目标识别的准确性和可靠性。
补充资料:地雷场
按照一定正面、纵深和布雷密度布设地雷的场地。通常分为防坦克地雷场、防步兵地雷场、混合地雷场。北大西洋公约组织国家还根据地雷场的用途,将地雷场分为防护性地雷场、战术地雷场、要点地雷场、拦阻地雷场和假地雷场。多数地雷场是非操纵的,也可设置成操纵的。在现代战争中,它是一种主要的障碍物。地雷场可预先布设,或在战斗过程中机动布设。布设地雷场的手段有人工布设、机械布设和使用飞机(含直升机)、火箭、火炮等撒布。预先布设的地雷场须调制地雷场要图和填写地雷场登记表(簿)。机动布设的地雷场要标绘在要图上。地雷场的障碍能力取决于地雷性能、布雷密度、布设方式和地雷场纵深。用埋设和放置方式布设的地雷场,其布雷密度是指地雷场平均每米正面布设地雷的数量。根据地雷的性能不同,通常采用的布雷密度:炸坦克履带地雷为0.5~1,炸坦克车底地雷为0.3~0.5,爆破型防步兵地雷为 2~3,破片型防步兵地雷为0.2~1。用撒布的方法布设的地雷场,其布雷密度是指地雷场平均每平方米内地雷的数量。通常采用的布雷密度:防坦克地雷为0.001~0.004,防步兵地雷为0.001~0.002。地雷场的正面和纵深是根据战术要求、布雷手段和地形情况确定的,其正面小自数十米,大至数千米;其纵深,防坦克地雷场为20米至数百米,防步兵地雷场为10米至数百米。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条