Walls Surrounding a Space Work More Efficiently Construct a Recognized Visual Space of Illumination than Do Scattered Objects

The apparent color of an object depends on how we recognize the space where it is placed in terms of illumination. We call this the recognized visual space of illumination (RVSI). What we see in the space first, namely, the initial visual information (IVI) determines properties of the RVSI, and we will show in this paper that the walls surrounding this space are the most important IVI for the construction of the RVSI. A normal room was illuminated by a ceiling light at 60 lx and its central area was also lit by a hidden illumination of 400 lx. Two halves of a miniature room with walls on three sides and a floor were inserted from left and right sides into the hidden illumination to gradually create one miniature room, and the apparent lightness of a test patch was judged as a function of the amount of the inserted portions to measure construction of RVSI for the hidden illumination. The apparent lightness was around 55 in L∗ when no IVI was in the hidden illumination, it gradually went down with more IVI to around 40 L∗ to return toward its nominal lightness of 24 L∗ in the case of test patch N2. The drop was large with the present condition of IVI where, in the end, the space of the hidden illumination was surrounded by walls, compared to the previous results where the space was filled only by objects; this indicated the importance and efficiency of walls for constructing RVSI.     

基于子带补偿的弹载聚束SAR成像算法

弹载SAR成像常用非线性变标类算法改善聚焦效果.然而,非线性变标算法由于自身的局限性,在三维匀加速聚束SAR成像模式中非常容易失效.针对这一问题,本文提出了一种子带补偿法,并将该方法结合到弹载SAR聚束成像算法中.新算法不引入三次相位操作,可有效补偿随目标位置走动的多普勒调频率.仿真结果和分析表明,与常用的非线性变标类算法相比,本文所提算法在运算量、成像结果、适用性上都具有优越性,具有一定的工程应用价值和理论意义.     

基于散斑抑制的合成孔径激光成像雷达的结构和工作模式

目标漫反射产生的激光回波散斑效应严重影响合成孔径激光成像雷达(SAIL)的成像质量。在体系结构上提出了抑制散斑效应的系统性解决方案,建立了SAIL结构和工作模式设计的理论基础。研究了SAIL中与目标分辨单元尺寸、啁啾波长变化、目标相关性质和接收面光强随机分布有关的散斑统计特性。定义了SAIL光学接收天线的散斑孔径积分场复相干函数,它是天线孔径相关函数和目标分辨单元相关因子的卷积,其宽度就是可实现的孔径合成长度,给出了实现较大的孔径合成长度的发射口径、接收口径和实际孔径合成长度的设计原则,发现和分析了由啁啾散斑移动产生的拍频信号波动。最后建议采用滑动聚束模式来有效使用散斑效应造成较短的孔径合成尺度,因为其光束扫描宽度对SAIL移动距离有放大作用。同时也提出了具有多发射机/多接收机的多通道结构以提高回波散斑光场的探测率。     

一种机载合成孔径成像激光雷达聚束模式成像算法

合成孔径成像激光雷达是一种新的主动式有源的成像系统,可以获得比合成孔径雷达更高的分辨率,和更接近光学图片的效果.首先,在理想条件下分析了调频连续波的信号模型,推导出在连续波系统聚束模式下一种适用于机载合成孔径成像激光雷达系统的频率变标算法.然后,使用傅里叶变换法对符合von Karman谱的随机相位屏模拟大气湍流,并分析了Fried参量和合成孔径长度之间的关系.最后,仿真说明真空中采用方位预处理可以消除图像重影,并且补偿多普勒频移项可以消除8.6～9.3dB的能量损失和使图像散焦的现象.而在有大气影响时,合成孔径长度的选择小于Fried参量时,图像方位向可以良好聚焦.