提出一种雷达识别非合作目标的检测和分类一体化方案。
Joint target detection and classification scheme for radar non-cooperative target recognition (NCTR) was proposed.
对非合作目标自主交会中的中远程相对导航问题进行研究。
Relative navigation for long or medium range autonomous rendezvous with a noncooperative target is discussed.
而对于非合作目标要使其每次均能满足初始条件几乎是不可能的。
While for the target of the not cooperated wants to make it satisfied with the condition of the initialization every time is nearly impossible.
ISAR一般是对非合作目标成像,运动补偿是整个成像信号处理中的一个关键。
The targets imaged by ISAR are usually non-cooperative. So motion compensation is a key technique in ISAR imaging processing.
阐述了目标的漫反射特性对非合作目标相位式激光测距仪中光功率探测的重要性。
The importance of the diffuse reflectivity of the reflective target for the non-cooperative laser rangefinder is presented.
阐述了目标的漫反射特性对非合作目标相位式激光测距仪中光功率探测的重要性。
The fabrication process of glass and glass microsphere for laser cooperation target was studied.
随着航天科技的迅猛发展,空间背景下非合作目标的分割问题已经成为人们关注的新焦点。
With the rapid development of space technology, space background of the division of non-cooperative target has become the new focus of concern.
设计了针对空间非合作目标对接段的滤波器,能够提供对接段相对位置、速度、姿态角及角速率估计信息。
A filter design for rendezvous and docking with non-cooperative target was also given which can provide estimation information of relative position, velocity, attitude Angle and angular rate.
设计了针对空间非合作目标对接段的滤波器,能够提供对接段相对位置、速度、姿态角及角速率估计信息。
A navigation filer design is provided for final docking phase to provide estimated information of relative position and velocity and Angle and angle-rate.
目标的非合作性质和绕飞的自主性要求为实现任务提出了许多特殊问题。
Plenty of specific problems should be tackled on account of the target's non-cooperative trait and the demand of automatic fly-around.
非合作的机动多目标相对于雷达射线的姿态是时变的,而且目标间可能存在相对运动,给逆合成孔径雷达(ISAR)成像造成较大困难。
Inverse synthetic aperture radar (ISAR) imaging of non-cooperative maneuvering multi-target is a challenging task due to its time-varying orientation and the relative motion among targets.
本课题所要研究的就是利用非合作源,在相干信号情况下对多目标进行二维超分辨测向的实用方法及其硬件实现。
Therefore, the topic we study is the method and its hardware realization for Estimating two-dimensional DOA of coherent signals use non-cooperation sources.
本课题的主要研究内容就:是如何利用非合作辐射源对运动目标进行无源定位。
This topic research is a single-station passive location technology which uses phase difference change rate of the non-cooperation radiant signal to ascertain the target's location.
本课题的主要研究内容就:是如何利用非合作辐射源对运动目标进行无源定位。
This topic research is a single-station passive location technology which uses phase difference change rate of the non-cooperation radiant signal to ascertain the target's location.
应用推荐