基于SE(3)的高斯过程回归连续体机器人状态估计

IF 7.5 1区 计算机科学 Q1 ROBOTICS International Journal of Robotics Research Pub Date : 2022-10-21 DOI:10.1177/02783649221128843
S. Lilge, T. Barfoot, J. Burgner-Kahrs
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引用次数: 9

摘要

连续体机器人由于其独特的形状、顺应性和尺寸,有可能在医学、检查和无数其他领域实现新的应用。连续体机器人的机械设计和动力学建模已经取得了卓越的进展,尽管新的概念仍在探索中,但已经有了一些规范的设计。在本文中,我们转向连续机器人的状态估计问题,该问题可以用通用的Cosserat杆模型建模。连续体机器人的传感可能包括外部摄像机观测、嵌入式跟踪线圈或应变仪。我们将高斯过程(GP)回归方法重新用于状态估计,该方法最初是为SE(3)中的连续时间轨迹估计而开发的。在我们的情况下,连续变量不是时间,而是弧长,我们展示了如何在给定沿长度的姿态和应变的离散、有噪声测量的情况下估计机器人的连续形状(和应变)(以及相关的不确定性)。我们通过模拟和实验定量地展示了我们的方法。我们的评估表明,当使用离散姿态测量时,可以实现对连续机器人形状的精确和连续估计,从而在模拟中,估计的形状与真实形状之间的平均末端执行器误差低至3.5 mm和0.016°,在实验中,无载配置的末端执行器平均误差低至3.3 mm和0.035°,加载配置的末端执行者平均误差低为6.2 mm和0.041°。
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Continuum robot state estimation using Gaussian process regression on S E ( 3 )
Continuum robots have the potential to enable new applications in medicine, inspection, and countless other areas due to their unique shape, compliance, and size. Excellent progress has been made in the mechanical design and dynamic modeling of continuum robots, to the point that there are some canonical designs, although new concepts continue to be explored. In this paper, we turn to the problem of state estimation for continuum robots that can been modeled with the common Cosserat rod model. Sensing for continuum robots might comprise external camera observations, embedded tracking coils, or strain gauges. We repurpose a Gaussian process (GP) regression approach to state estimation, initially developed for continuous-time trajectory estimation in SE(3). In our case, the continuous variable is not time but arclength and we show how to estimate the continuous shape (and strain) of the robot (along with associated uncertainties) given discrete, noisy measurements of both pose and strain along the length. We demonstrate our approach quantitatively through simulations as well as through experiments. Our evaluations show that accurate and continuous estimates of a continuum robot’s shape can be achieved, resulting in average end-effector errors between the estimated and ground truth shape as low as 3.5 mm and 0.016° in simulation or 3.3 mm and 0.035° for unloaded configurations and 6.2 mm and 0.041° for loaded ones during experiments, when using discrete pose measurements.
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来源期刊
International Journal of Robotics Research
International Journal of Robotics Research 工程技术-机器人学
CiteScore
22.20
自引率
0.00%
发文量
34
审稿时长
6-12 weeks
期刊介绍: The International Journal of Robotics Research (IJRR) has been a leading peer-reviewed publication in the field for over two decades. It holds the distinction of being the first scholarly journal dedicated to robotics research. IJRR presents cutting-edge and thought-provoking original research papers, articles, and reviews that delve into groundbreaking trends, technical advancements, and theoretical developments in robotics. Renowned scholars and practitioners contribute to its content, offering their expertise and insights. This journal covers a wide range of topics, going beyond narrow technical advancements to encompass various aspects of robotics. The primary aim of IJRR is to publish work that has lasting value for the scientific and technological advancement of the field. Only original, robust, and practical research that can serve as a foundation for further progress is considered for publication. The focus is on producing content that will remain valuable and relevant over time. In summary, IJRR stands as a prestigious publication that drives innovation and knowledge in robotics research.
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