3) Target detection
目标探测
1.
Design and application of same distribution test for target detection accuracy;
目标探测精度的同分布检验设计与应用
2.
Application of new texture analysis algorithm in target detection;
一种新的纹理分析算法在目标探测中的应用
3.
Design and application of target detection range related analysis;
目标探测距离相关分析的设计与应用
4) object detection
目标探测
1.
Romote sensing technical method of wide band or high spectrum is described briefly and the research and applying status of subpixel,low probability and object detection are introduced.
简述宽波段或高光谱遥感技术方法及亚象元、低概率目标探测技术的研究及应用现状。
2.
Millimeter wave object detection makes use of the electromagnetic thermal emission of the subject and reflected thermal signals from the background, millimeter wave object detection, in comparison to visible or infrared object detection, has great potential advantage of detection through fog、cloud、smoke、sandstorms and other poor weather conditions.
毫米波目标探测是利用目标、背景的电磁热辐射来实现的,与可见光及红外探测相比,毫米波目标探测在雾、云、烟尘、沙暴等恶劣气候条件下具有潜在的优势。
6) target detecting
目标探测
1.
Compared with microwave,millimeter wave s wavelength is shorter,as antenna apeture size is assigned,its beam-width is narrower and its gain higher,the microwave sensor imaging system has better resolution rate and precision when it is used in target detecting and identification.
毫米波与微波相比,波长更短,对于给定的天线孔径尺寸,波束宽度较窄、增益较高,所以毫米波辐射计成像系统在目标探测、跟踪和识别方面具有更好的分辨率和精度。
补充资料:激光水下目标探测
激光水下目标探测
laser underwater target detection
刃ater}标的了摄影i离较军事三置通毛之间l水中秒和列如,53微:和水少。飞一激光已湾战载蓝iiguang shuixia mubiQo tanee激光水下目标探测、(l aser undertarget detection)用激光探测水下「距离、位置、形状的技术。与普通水下和声纳等探测手段相比,具有探狈」跳远、精度较高、识别能力较强等优点。上可用于探侧水雷、潜艇等水中目标 激光测深激光水下目标测量落过测量激光脉冲往返于观测点至目拓所用的时间,根据光速(激光在大气禾的传播速度分别约为2.99/108米/2.44/108米/秒)推算出目标深度。1机载Nd激光探测系统分别用波长0.:米和1.06微米激光探测飞机飞行高度中目标的深度,探侧波的脉宽约10纳1机相对于目标运动和水面轻微波动对测深结果无实质性影响。在1991年浓争中,以美国为首的多国部队曾将初极管53微高度索速,探1次/测技{光发干口显每瞬「点按射的经放在显相对离子率为级,然光助照、散照明 5米采用「手‘悬像增,水米。}留石明光器件水中行引物分洁)飘孚物敷光约荧抗的则水与水光一本,目标巾目于水究,粼水光的咋用绿激光探测系统用于探测水雷。以二泵浦固体激光器为发射器(激光波长O米、脉冲能量2毫焦耳),飞机飞辛130一500米,其探雷性能参数为:契率5一25千米丫小时,探雷水深达24到雷概率0.9一住95,探雷虚警率不大刁小时。 激光扫描成像采用光束扫描书术对水下目标成像。扫描成像装置由授射器、光电探测器、视频信号处理电足示器组成。细光束在视场中逐行扫描,时只照亮目标表面的一个点,多个光具行、帧形成二维栅状照明光束。目标五微弱回波被光电探测器转换成电信号。
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