Vision-Based Uncertainty-Aware Motion Planning Based on Probabilistic Semantic Segmentation

IF 4.6 2区 计算机科学 Q2 ROBOTICS
Ralf Römer;Armin Lederer;Samuel Tesfazgi;Sandra Hirche
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引用次数: 1

Abstract

For safe operation, a robot must be able to avoid collisions in uncertain environments. Existing approaches for motion planning under uncertainties often assume parametric obstacle representations and Gaussian uncertainty, which can be inaccurate. While visual perception can deliver a more accurate representation of the environment, its use for safe motion planning is limited by the inherent miscalibration of neural networks and the challenge of obtaining adequate datasets. To address these limitations, we propose to employ ensembles of deep semantic segmentation networks trained with massively augmented datasets to ensure reliable probabilistic occupancy information. To avoid conservatism during motion planning, we directly employ the probabilistic perception in a scenario-based path planning approach. A velocity scheduling scheme is applied to the path to ensure a safe motion despite tracking inaccuracies. We demonstrate the effectiveness of the massive data augmentation in combination with deep ensembles and the proposed scenario-based planning approach in comparisons to state-of-the-art methods and validate our framework in an experiment with a human hand as an obstacle.
基于概率语义分割的视觉不确定性感知运动规划
为了安全操作,机器人必须能够避免在不确定的环境中发生碰撞。现有的不确定条件下的运动规划方法通常假设参数障碍表示和高斯不确定性,这可能是不准确的。虽然视觉感知可以提供更准确的环境表示,但其在安全运动规划中的应用受到神经网络固有的错误校准和获得足够数据集的挑战的限制。为了解决这些局限性,我们建议使用用大规模扩充数据集训练的深度语义分割网络集合,以确保可靠的概率占用信息。为了避免运动规划过程中的保守性,我们在基于场景的路径规划方法中直接使用概率感知。速度调度方案被应用于路径,以确保在跟踪不准确的情况下的安全运动。与最先进的方法相比,我们证明了大规模数据扩充与深度集成和所提出的基于场景的规划方法相结合的有效性,并在以人手为障碍的实验中验证了我们的框架。
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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来源期刊
IEEE Robotics and Automation Letters
IEEE Robotics and Automation Letters Computer Science-Computer Science Applications
CiteScore
9.60
自引率
15.40%
发文量
1428
期刊介绍: The scope of this journal is to publish peer-reviewed articles that provide a timely and concise account of innovative research ideas and application results, reporting significant theoretical findings and application case studies in areas of robotics and automation.
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