Demonstrating Mobile Manipulation in the Wild: A Metrics-Driven Approach

Robotics: Science and Systems XIX Pub Date : 2023-07-10 DOI:10.15607/RSS.2023.XIX.055

M. Bajracharya, James Borders, Richard Cheng, D. Helmick, Lukas Kaul, Daniel Kruse, John Leichty, Jeremy Ma, Carolyn Matl, Frank Michel, Chavdar Papazov, Josh Petersen, K. Shankar, Mark Tjersland

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Abstract

—We present our general-purpose mobile manipu- lation system consisting of a custom robot platform and key algorithms spanning perception and planning. To extensively test the system in the wild and benchmark its performance, we choose a grocery shopping scenario in an actual, unmodified grocery store. We derive key performance metrics from detailed robot log data collected during six week-long field tests, spread across 18 months. These objective metrics, gained from complex yet repeatable tests, drive the direction of our research efforts and let us continuously improve our system’s performance. We find that thorough end-to-end system-level testing of a complex mobile manipulation system can serve as a reality-check for state-of-the-art methods in robotics. This effectively grounds robotics research efforts in real world needs and challenges, which we deem highly useful for the advancement of the field. To this end, we share our key insights and takeaways to inspire and accelerate similar system-level research projects.

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在野外演示手机操作:参数驱动方法

我们提出了我们的通用移动操作系统，包括一个定制的机器人平台和跨越感知和规划的关键算法。为了在野外广泛测试系统并对其性能进行基准测试，我们在一个实际的、未经修改的杂货店中选择了一个杂货店购物场景。我们从为期6周的现场测试中收集的详细机器人日志数据中得出关键性能指标，这些数据分布在18个月内。这些从复杂但可重复的测试中获得的客观指标，推动了我们研究工作的方向，并让我们不断改进系统的性能。我们发现，对复杂的移动操作系统进行彻底的端到端系统级测试可以作为机器人技术中最先进方法的现实检查。这有效地将机器人研究工作置于现实世界的需求和挑战中，我们认为这对该领域的进步非常有用。为此，我们分享我们的关键见解和要点，以启发和加速类似的系统级研究项目。

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Robotics: Science and Systems XIX

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