Electronic technology plays an important role in the military mission of detection, decision and destruction, especially in a quick changing battlefield environment.
电子技术在作战任务的侦察、决策、摧毁中起着重要作用,尤其在快速变动的战场环境。
The main works are as follows:Firstly, the configuration of Distributed Virtual Ocean Battlefield Environment was studied.
首先研究了虚拟海洋战场环境的系统组成。
Therefore, accurately understand the changing of battlefield environment and reflecting that in early studies of new equipment is a key issue for effective R&D.
因此,精确的了解战争环境的改变并在研发新设备之初就考虑到这个因素是有效开展研发的关键所在。
The method of region analysis is the fundamental way in the study of battlefield environment.
区域分析法是在作战测绘保障中研究战场环境的基本方法。
The uncertain and its reason of battlefield environment are analyzed. Then Fuzzy Set theory is introduced to the single target identification algorithm.
从分析侦察手段所处的战场环境入手,将模糊集理论引入单传感器目标识别算法中,提出了基于模糊匹配的单传感器目标识别算法。
This paper mostly studies the key modeling and real-time rendering technology of ocean scene in large-scale virtual battlefield environment.
本文主要研究大规模虚拟战场环境中海洋场景的建模和实时绘制关键技术。
Through analyzing requirements of battlefield simulation for environment information, a conclusion is drawn that the independently designed vectorgraph is a perfect method to meet these requirements.
在分析作战仿真对战场环境信息需求的基础上,得出自主制作矢量图是满足此类需求的最理想方法。
To offer more intuitionistic information of the battlefield environment for the commander, the demand for the aerial photo map is also becoming increasingly prominent.
为了给作战指挥员提供更直观的战场环境信息,对航片地图的需求也日益凸显。
The 3D representation of Radar electromagnetic information affected by terrain, ocean and weather is a crucial problem in the future Digital Virtual Battlefield Environment (DVBE).
地形、海洋、气象等环境影响下雷达电磁信息的三维表现是未来数字化虚拟战场环境不可回避的问题。
Finally, it also deeply studied the query functions of military base geographic information and multimedia information, the battlefield terrain analysis, and the battlefield environment analysis.
对军事基础地理信息和多媒体信息的综合查询统计、战场地形定量分析和战场环境分析等进行了深入的研究。
The battlefield environment is the space foundation for all the military actions, the battlefield environment simulation is the focus of the research into the military war gaming.
战场环境是一切军事行动的空间基础,战场环境仿真是目前军事作战模拟领域研究的热点。
The visual technology of electromagnetic signal in the virtual battlefield environment was investigated and several description methods of signal in the time-field and space-field were introduced.
对虚拟战场环境中电磁信号的可视化技术进行了初步的研究,介绍了几种通信信号和干扰信号的时域和空间域的绘制方法。
By realizing the functions of the systems' key platform, the troop commanders' dynamic command and control in terms of the various battlefield environment.
通过对系统关键平台的功能实现,为兵种指挥员根据战场环境的变化实施动态指挥和控制提供了较好的支持,具有一定的实用价值。
A method integrating software radio technology with software and hardware is used to realize living simulation of MF radar signal under complex sea battlefield EM environment.
采用软件无线电技术和软硬件相结合的方法较逼真地实现了海战场复杂电磁环境下雷达中频信号的模拟。
Aiming at the random factors to equipment support at complex battlefield environment nowadays, introduce to use gray theory to solve the prediction of spare parts inventory during equipment support.
针对现代复杂战场环境下装备保障的随机性影响因素,提出用灰色预测解决装备保障中备件库存的预测问题。
Because of the particularity in battlefield environment, environmental noise is a main obstruction in the military order recognition technology.
由于战场使用环境的特殊性,环境噪声成为军事命令语音识别技术实用化的一个主要障碍。
Experiments show that the method can effectively satisfy the real time rendering of large-scale battlefield electromagnetic environment.
实验表明,该方法能够较好满足大规模战场电磁环境实时可视化的要求。
In this paper, we study a Technique of building 3d digital battlefield environment by satellite image information, satellite surveying station information, and others.
研究了综合利用卫星图像信息、定位信息和其它信息建立三维数字化战场环境的技术,并对技术应用前景进行了综合分析。
So, we studied 3d ocean and land battlefield environment, location of amphibian tank on the sea, model of entity movement, model of entity antagonizing and so on.
为此,主要研究了三维海陆战场环境的实时显示,坦克在海上的运动姿态,战场中实体运动模型和实体对抗模型等方面的内容。
The electromagnetic environment of the hi- tech battlefield is looked as a important problem by most countries.
高技术条件下战场的电磁环境,已成为世界各国普遍重视的问题。
Therefore, it becomes an urgent need to look for a kind of registration algorithm which is adaptable, highly precise, fast to UAV in a complex battlefield environment for autonomous navigation.
因此,寻找一种具有适应性强、精度高、配准速度快的算法成为无人机在复杂战场环境下自主导航的迫切需要。
With the rapid changes of battlefield environment and situation in modern war, traditional command mode and means can hardly meet the command requirement.
现代战争的战场情况瞬息万变,紧张程度越来越高。传统的指挥方式和手段不能满足在战况急速变化条件下指挥作战的需求。
With the rapid changes of battlefield environment and situation in modern war, traditional command mode and means can hardly meet the command requirement.
现代战争的战场情况瞬息万变,紧张程度越来越高。传统的指挥方式和手段不能满足在战况急速变化条件下指挥作战的需求。
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