基于多传感器融合的自动驾驶非结构化道路可行驶区域分割

Proceedings of the 2022 11th International Conference on Computing and Pattern Recognition Pub Date : 2022-11-17 DOI:10.1145/3581807.3581828

Hanqi Wang, Huawei Liang, L. Chen, Diancheng Gong, Pengfei Zhou, Bin Kong

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引用次数: 0

摘要

可驾驶区域分割对于自动驾驶汽车的驾驶安全至关重要，尤其是在非结构化道路上。主流的可驾驶区域算法适用于结构化环境，如城市道路。然而，这些算法在非结构化环境中表现不佳。提出了一种基于多传感器后期融合的非结构化环境下可驾驶区域分割算法。该算法利用视觉分割结果对激光雷达(LiDAR)分割结果进行校正，可有效解决边界高差不明显的环境问题。沙漠实验结果表明，该算法在Intersection over Union (IoU)上达到96.02，分别比基于lidar的算法和基于vision的算法高36.75和38.31。

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Drivable Area Segmentation in Unstructured Roads for Autonomous Vehicles based on Multi-sensor Fusion

Drivable area segmentation is vital for autonomous vehicle driving safety, especially on unstructured roads. Mainstream drivable area algorithms are suited for structured environments, such as urban roads. However, these algorithms perform poorly in unstructured environments. This paper proposes a drivable area segmentation algorithm based on multi-sensor late-fusion for unstructured environments. The algorithm uses the visual segmentation results to correct the light detection and ranging (LiDAR) segmentation results, which can effectively solve those environments with unapparent boundary height differences. Desert experiments show that our algorithm achieves 96.02 on Intersection over Union (IoU), which is 36.75 and 38.31 higher than the LiDAR-based and the Vision-based algorithm, respectively.

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Proceedings of the 2022 11th International Conference on Computing and Pattern Recognition

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