基于汽车飞行时间传感器的定量和定性评价方法

2020 23rd Euromicro Conference on Digital System Design (DSD) Pub Date : 2020-08-01 DOI:10.1109/DSD51259.2020.00106

Caterina Nahler, C. Steger, N. Druml

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引用次数: 6

摘要

基于飞行时间(ToF)的三维(3D)成像传感器，如光探测和测距(LiDAR)传感器或ToF相机，可用于以点云的形式描绘其周围环境。ToF方法测量发射的光信号被空间中一点反射的时间，并从已知的光的传播时间中导出距离。越来越多的基于ToF的三维传感器以汽车为目标应用。汽车传感器是安全关键应用的一部分。因此，确保所提供的传感器数据以已知概率准确是很重要的。在本文中，我们描述和评估了ToF/LiDAR传感器的定量和定性性能评估的测试程序，重点是汽车应用。我们提出了一个激光雷达误差和影响模型，从中我们得到了八个测试区域。我们对八个测试区域中的六个进行了描述和测试。所描述的测试用例在三个LiDAR传感器和一个ToF相机上进行了评估。结果表明，目标和测试程序需要适应特定的被测ToF/LiDAR传感器。特别值得注意的是，由于稀疏传感器分辨率对测试程序的影响。此外，测试结果表明，特定于目标应用的测试可以提供有关传感器行为的额外信息。

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Quantitative and Qualitative Evaluation Methods of Automotive Time of Flight Based Sensors

Time of Flight (ToF) based three-dimensional (3D) imaging sensors, such as Light Detection and Ranging (LiDAR) sensors or ToF cameras, can be used to depict their surroundings in form of a point cloud. The ToF method measures the time an emitted light signal takes to be reflected by a point in space and derives the distance from the known travel time of light. More and more ToF based 3D sensors are developed for automotive use as their target application. Automotive sensors are part of a safety critical application. Therefore, it is important to ensure that the provided sensor data is accurate with a known probability. In this paper, we describe and evaluate test procedures for quantitative and qualitative performance evaluation of ToF/LiDAR sensors with focus on automotive use. We propose a LiDAR error and influence model from which we derived eight test areas. We described and conducted tests for six of the eight test areas. The described test cases were evaluated on three LiDAR sensors and one ToF camera. The results show that targets and test procedures need to be adapted to the specific tested ToF/LiDAR sensor. Especially noticeable where influences on test procedures due sparse sensor resolution. Furthermore, the test results show that target application specific tests can provide additional information on the behaviour of the sensor.

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来源期刊

2020 23rd Euromicro Conference on Digital System Design (DSD)

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