The simulation results indicate that spaceborne sar bring forward more rigorous requirement to smp with the increasing of resolution 仿真结果表明,随着分辨率的提高,星载sar对于卫星运动参数的精度提出了更严格的要求。
How the parameters associated with the external cavity movement and the laser itself affect the self - mixing signal is simulated 经计算仿真分析,得到了外腔运动参数及激光器本身参数的变化对光反馈自混合信号波形的影响规律。
The main 2 sorts of compensation algorithm are base on scatter points tracking and motion parameters estimation , respectively Isar成像的运动补偿算法主要分两类:基于特显点跟踪的补偿算法和基于目标运动参数估计的补偿算法。
In the end , according to parameters provided by the six - dimensional mouse , we offer the ways of controlling the objects to realize the movement emulation 最后提供对象控制方法,根据六维鼠标提供的运动参数,实现运动仿真。
The method based on ground transponder can improve the precision of smp which satisfy the requirement of radiometric calibration 基于地面有源转发器方法测量的卫星运动参数具有更高的精度,满足了高分辨率星载sar辐射定标的要求。
The pose and motion parameters of mobile robot are obtained by the analysis of locomotion architecture , and its kinematic model is built based on the rigid constrains 通过运动机构的分析,获得了移动机器人自身的位姿及运动参数。
It is significantly meaningful to study the relation between high resolution spaceborne sar radiometric calibration and satellite motion parameters ( smp ) 研究高分辨率星载sar的辐射定标与卫星运动参数的关联技术,将具有十分重要的意义。
The main steps include camera calibration , the matching of motion and stereo images , 3 - d feature point correspondences and resolving the motion parameters 其主要步骤包括相机检校、运动与立体影像的匹配、运动前后三维特征点的对应以及运动参数的求解。
First , we calculate the hydrodynamic performance of the caudal fin which is considered as a rigid body using surface panel method . then a detailed analysis is given 首先把尾鳍视为刚性体,采用面元法计算其水动力性能,详细分析其水动力系数随尾鳍运动参数的变化规律。
" last , 4he method of measuring smp using ground transponder is discussed . the measuring model and mathematics model of this method is desired . the algorithm is derived 给出了基于有源转发器方法测量卫星运动参数的测量模型和数学模型,在此基础上,推导了确定卫星位置的算法。
