遥操作
透明度(行为)
计算机科学
实施
被动性
理论(学习稳定性)
遥控机器人学
模拟
工程类
控制工程
控制(管理)
机器人
人工智能
计算机安全
移动机器人
机器学习
电气工程
程序设计语言
作者
Chunpeng Wang,Rui Luo,John P. Whitney,Taşkın Padır
标识
DOI:10.1007/s12369-023-01092-z
摘要
Abstract In real-life teleoperation scenarios, the presence of time-varying network delays, particularly in wireless networks, poses significant challenges in maintaining stability in a bilateral teleoperation system. Various approaches have been proposed in the past to address stability concerns; however, these often come at the expense of system transparency. Nevertheless, increasing transparency is crucial in a teleoperation system to enable precise and safe operations, as well as to provide real-time decision-making capabilities for the operator. This paper presents our comprehensive approaches to maximize teleoperation transparency by minimizing system impedance, enhance the wave variable method to handle time-varying network delays, and alleviate non-smooth effects caused by network jitters in bilateral teleoperation. The proposed methodologies take into account the real-world challenges and considerations to ensure the practical applicability and effectiveness of the teleoperation system. Throughout these implementations, passivity analysis is employed to ensure system stability, guaranteeing a reliable and safe teleoperation experience. The proposed approaches were successfully validated in Team Northeastern’s Avatar telepresence system, which achieved the 3rd place in ANA Avatar XPRIZE challenge.
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