基于语义图像分割的水下障碍物检测改进

B. Arain, C. McCool, P. Rigby, Daniel Cagara, M. Dunbabin
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引用次数: 19

摘要

本文提出了将稀疏立体点云与单目语义图像分割相结合的两种改进基于图像的水下障碍物检测的新方法。在杂乱的水下环境(如珊瑚礁)中生成精确的基于图像的障碍物地图,对于强大的机器人路径规划和导航至关重要。然而,这些地图可能会受到能见度、光照和动态物体(如鱼)等因素的挑战,这些因素可能会导致错误地识别自由空间或动态物体,轨迹规划者可能会对这些物体做出不希望的反应。我们建议将基于特征的立体匹配与基于学习的分割相结合,以产生更鲁棒的障碍图。这种方法考虑了水下障碍物存在与否的直接二元学习,以及对场景中障碍物的距离(近、中、远)进行分类的多类学习方法。通过包含来自稀疏立体匹配的深度信息来生成场景的3D障碍物地图,还显示了对二进制地图的增强。使用在杂乱的,有时是视觉退化的珊瑚礁环境中收集的现场数据来评估性能。结果表明,与单独基于特征的稀疏和密集立体点云相比,该方法在图像范围内的障碍物检测、瞬态物体(如鱼)的抑制和距离估计方面有所改进。
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Improving Underwater Obstacle Detection using Semantic Image Segmentation
This paper presents two novel approaches for improving image-based underwater obstacle detection by combining sparse stereo point clouds with monocular semantic image segmentation. Generating accurate image-based obstacle maps in cluttered underwater environments, such as coral reefs, are essential for robust robotic path planning and navigation. However, these maps can be challenged by factors including visibility, lighting and dynamic objects (e.g. fish) that may lead to falsely identified free space or dynamic objects which trajectory planners may react to undesirably. We propose combining feature-based stereo matching with learning-based segmentation to produce a more robust obstacle map. This approach considers direct binary learning of the presence or absence of underwater obstacles, as well as a multiclass learning approach to classify their distance (near, mid and far) in the scene. An enhancement to the binary map is also shown by including depth information from sparse stereo matching to produce 3D obstacle maps of the scene. The performance is evaluated using field data collected in cluttered, and at times, visually degraded coral reef environments. The results show improved image-wide obstacle detection, rejection of transient objects (such as fish), and range estimation compared to feature-based sparse and dense stereo point clouds alone.
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