Automotive LiDAR performance verification in fog and rain

2018 21st International Conference on Intelligent Transportation Systems (ITSC) Pub Date : 2018-11-01 DOI:10.1109/ITSC.2018.8569624

M. Kutila, P. Pyykönen, H. Holzhuter, M. Colomb, Pierre Duthon

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引用次数: 102

Abstract

This article focuses on testing and investigating further development needs for LiDARs in self-driving cars in adverse weather. The article compares two different LiDARs (Ibeo Lux and Velodyne PUCK), which both use the 905 nm wavelengths, which are used in more than 95% of currently available LiDARs. The performance was tested and estimated in stabilized fog conditions at Cerema fog chamber facilities. This provides a good basis for repeating the same validation procedure multiple times and ensuring the right development decisions. However, performance of the LiDARs suffers when the weather conditions become adverse and visibility range decreases. A 50% reduction in target detection performance was observed over the exhaustive tests. Therefore, changing to higher wavelengths (1550 nm) was considered using redesigned “pre-prototype LiDAR”. The preliminary results indicate that there is no reason to not use 1550 nm wavelength, which due to eye safety regulations gives an opportunity to use 20 times more power compared to the traditional 905 nm. In order to clarify the expected benefits, additional feasibility studies are still needed.

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雾雨条件下汽车激光雷达性能验证

本文的重点是测试和研究在恶劣天气下自动驾驶汽车中激光雷达的进一步发展需求。本文比较了两种不同的激光雷达(Ibeo Lux和Velodyne PUCK)，这两种激光雷达都使用905nm波长，目前95%以上的激光雷达都使用905nm波长。在瓦拉雾室设施的稳定雾条件下进行了性能测试和评估。这为多次重复相同的验证过程并确保正确的开发决策提供了良好的基础。然而，当天气条件变得不利，能见度范围减小时，激光雷达的性能会受到影响。在穷举测试中观察到目标检测性能降低了50%。因此，考虑使用重新设计的“预原型激光雷达”切换到更高波长(1550 nm)。初步结果表明，没有理由不使用1550nm波长，由于眼睛安全规定，可以使用比传统905nm高20倍的功率。为了澄清预期的利益，还需要进一步的可行性研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 21st International Conference on Intelligent Transportation Systems (ITSC)

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