防空作战决策活动具有极强的风险性。
防空作战中态势评估是辅助决策的基础。
Situation assessment is the basis of subsidiary decision-making in anti-air fight.
兵力优化分配是防空作战部署中的重要问题。
The problem of allocation optimum for air defence missile weapon system is important in air defence deployment.
兵力需求分析是地面防空作战部署的重要环节。
Troops demand analysis is very important to the operational disposition of ground air defense.
区域防空网络化作战是未来防空作战的发展趋势。
Zone air defence network-centric warfare (NCW) is the tendency of air defence warfare in future.
并以野战防空作战能力为例,建立了评估指标体系。
The combat capability of field antiaircraft is taken as an example to build evaluation index system.
未来防空作战中,ARM对防空雷达构成了严重威胁。
ARM will seriously threat the radar in the future air-defense.
最后以某地区防空作战指挥控制系统为背景,进行了案例研究。
In the end, an air defense combat command and control system of some area is taken as an example.
在防空作战中,战场态势的分析非常重要,它是辅助决策的基础。
The analysis of battle-field situation is very important which is the basis of subsidiary decision-making for anti-air.
弹炮合一防空武器系统是现代防空作战中一种重要的低空防御武器。
Anti aircraft gun missile system is a very effective low altitude defence system in the modern anti aircraft campaign.
该方法有效地解决了目标威胁评估与排序问题,提高了防空作战效能。
It is efficiently to solve the problem of target menace assess and ordering, and the efficiency of air defense combat can be improved.
预备役高炮师防空作战火力单元需求进行分析,以防空任务量为基础。
The fire unit demand analysis for military reverse air defense artillery in air defense battle was based on air defense mission demand.
在分析传统防空作战的基础上,分析了陆军战役防空兵制空效能评估问题。
Based on traditional air-defense efficiency, analyzed air-mastery efficiency evaluation of anti-aircraft unit in campaign of the army.
为了提高航母编队的防空作战效能,必须对防空作战系统进行设计和优化。
The air defense operation system should be designed properly and optimized to enhance the air defense operation efficiency of aircraft carrier formation.
在防空作战中,判断多批次空袭目标威胁度是一项复杂且主观性极强的工作。
In the air defence operation, it is a complicated and objective task to evaluate the priority of air threat.
防空兵力弹炮结合系统排队服务系统模型,基于排队论和防空作战理论建立。
The queue service model of anti-aircraft gun missile system is established on the base of queue theory and air defense theory.
根据快防空作战的节奏、强对抗、多批次入侵特点,提出了武器目标分配模型。
This paper puts forward a weapon target assignment model according to the characteristics of present air defense combat, such as high operating tempo, intense confrontation and multi batch invasion.
在防空作战指挥决策过程中,空袭目标的威胁程度评估与排序是其关键环节之一。
Threat evaluating and sequencing of the air attack targets is one of its key links when we command in air defense battle.
而准确、迅速识别空袭目标类型是防空作战快速指挥,正确决策的一个关键环节。
The model reduces the artificial factors within the methods of identifying the type of aerial target and raises the credibility, speed and stability to the identification results.
该方法使基准矩阵的建立简化,符合防空作战的实时性、准确性要求,计算速度快。
It made the building of reference matrix simplify, matching the real time and accuracy demand of air defense combat, computing speed is fast.
辅助决策模块可辅助指挥员实施防空作战指挥,提高指挥员的作战指挥与决策能力。
The decision-assistant module can help the commander to conduct direction of air defence operations and improve his capabilities of operation command and decision.
防空作战系统是一个非常庞大的综合系统,对其效能进行综合评判是一项复杂的工作。
Air defense fighting system is an integrated large system, thus its overall evaluation is very complicated.
如果中国兴建或购买航空母舰,这些资产将使它能够提供更多的防空作战、援两栖作战。
If China were to build or purchase an aircraft carrier, such an asset would enable it to provide increased air defense and support for amphibious operations.
防空作战态势可视化系统(简称adcsvs)是防空指挥自动化系统的重要组成部分。
Air defense campaign situation visualization system (short for ADCSVS) is an important part of air defense automatic command system.
采用层次型数据融合结构,研究了防空作战(AAW)系统中多类传感器航迹相关问题。
Hierarchical fusion architecture is used to solve the problem of multiple sensors track association in AAW system.
针对防空作战中空中目标航迹预测的问题,提出了一种基于灰色理论的空中目标航迹预测方法。
A method for predicting aerial target tracks in air defense warfare was put forward based on grey theory.
防空兵群阵地选择是防空兵力部署的一个重要环节,对实施防空作战发挥着重要的影响和作用。
The air defense group's position selection is a important tache of the deployment, exerting important infection and action in air defense battle.
以此模型为基础,利用改进的关键路径算法,得到网络化防空作战系统与目标对抗过程中的关键路径;
Combined with improved algorithm, the engagement critical path of networked Air Defense System with target was calculated.
以此模型为基础,利用改进的关键路径算法,得到网络化防空作战系统与目标对抗过程中的关键路径;
Combined with improved algorithm, the engagement critical path of networked Air Defense System with target was calculated.
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