激光雷达
光学
测距
计算机科学
图像分辨率
光电探测器
计算机视觉
人工智能
图像传感器
平面的
激光器
数据采集
像素
飞行时间
探测器
遥感
物理
地质学
操作系统
电信
计算机图形学(图像)
作者
Ahmed Kirmani,Andrea Colaço,Franco N. C. Wong,Vivek K Goyal
出处
期刊:Optics Express
[Optica Publishing Group]
日期:2011-10-17
卷期号:19 (22): 21485-21485
被引量:77
摘要
Range acquisition systems such as light detection and ranging (LIDAR) and time-of-flight (TOF) cameras operate by measuring the time difference of arrival between a transmitted pulse and the scene reflection. We introduce the design of a range acquisition system for acquiring depth maps of piecewise-planar scenes with high spatial resolution using a single, omnidirectional, time-resolved photodetector and no scanning components. In our experiment, we reconstructed 64 × 64-pixel depth maps of scenes comprising two to four planar shapes using only 205 spatially-patterned, femtosecond illuminations of the scene. The reconstruction uses parametric signal modeling to recover a set of depths present in the scene. Then, a convex optimization that exploits sparsity of the Laplacian of the depth map of a typical scene determines correspondences between spatial positions and depths. In contrast with 2D laser scanning used in LIDAR systems and low-resolution 2D sensor arrays used in TOF cameras, our experiment demonstrates that it is possible to build a non-scanning range acquisition system with high spatial resolution using only a standard, low-cost photodetector and a spatial light modulator.
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