经验教训:核环境共生自主机器人生态系统

IF 1.5 Q3 AUTOMATION & CONTROL SYSTEMS
Daniel Mitchell, Paul Dominick Emor Baniqued, Abdul Zahid, Andrew West, Bahman Nouri Rahmat Abadi, Barry Lennox, Bin Liu, Burak Kizilkaya, David Flynn, David John Francis, Erwin Jose Lopez Pulgarin, Guodong Zhao, Hasan Kivrak, Jamie Rowland Douglas Blanche, Jennifer David, Jingyan Wang, Joseph Bolarinwa, Kanzhong Yao, Keir Groves, Liyuan Qi, Mahmoud A. Shawky, Manuel Giuliani, Melissa Sandison, Olaoluwa Popoola, Ognjen Marjanovic, Paul Bremner, Samuel Thomas Harper, Shivoh Nandakumar, Simon Watson, Subham Agrawal, Theodore Lim, Thomas Johnson, Wasim Ahmad, Xiangmin Xu, Zhen Meng, Zhengyi Jiang
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引用次数: 0

摘要

核设施的监管要求是每年测量核设施周围运行后清理(POCO)范围内的辐射水平,这导致了在核退役阶段部署机器人以更好地了解情况的趋势。英国核退役管理局支持 "人在回路(HITL)机器人部署 "这一观点,认为这是改进核设施辐射特性分析程序和降低风险的一种解决方案。作者介绍了在模拟核环境中部署的网络物理系统(CPS)的新型实施方案,该系统由一个多机器人(MR)团队组成,由 HITL 操作员通过数字孪生接口进行协调。CPS 的开发建立了跨系统的高效合作关系,包括机器人、数字系统和人类。这是异构共生多机器人舰队(SMuRF)检查场景中的一项多阶段任务。在整个 SMuRF 中实现了共生互动,机器人利用自动协作治理来协同工作,而单个机器人在全面描述辐射特征方面将面临挑战。主要贡献包括展示了共生自主性和基于查询的自主任务学习,支持可扩展的自主性和自主性即服务。CPS 的协调取得了成功,并展示了与未来 MR 机群有关的进一步挑战和改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Lessons learned: Symbiotic autonomous robot ecosystem for nuclear environments

Lessons learned: Symbiotic autonomous robot ecosystem for nuclear environments

Nuclear facilities have a regulatory requirement to measure radiation levels within Post Operational Clean Out (POCO) around nuclear facilities each year, resulting in a trend towards robotic deployments to gain an improved understanding during nuclear decommissioning phases. The UK Nuclear Decommissioning Authority supports the view that human-in-the-loop (HITL) robotic deployments are a solution to improve procedures and reduce risks within radiation characterisation of nuclear sites. The authors present a novel implementation of a Cyber-Physical System (CPS) deployed in an analogue nuclear environment, comprised of a multi-robot (MR) team coordinated by a HITL operator through a digital twin interface. The development of the CPS created efficient partnerships across systems including robots, digital systems and human. This was presented as a multi-staged mission within an inspection scenario for the heterogeneous Symbiotic Multi-Robot Fleet (SMuRF). Symbiotic interactions were achieved across the SMuRF where robots utilised automated collaborative governance to work together, where a single robot would face challenges in full characterisation of radiation. Key contributions include the demonstration of symbiotic autonomy and query-based learning of an autonomous mission supporting scalable autonomy and autonomy as a service. The coordination of the CPS was a success and displayed further challenges and improvements related to future MR fleets.

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来源期刊
IET Cybersystems and Robotics
IET Cybersystems and Robotics Computer Science-Information Systems
CiteScore
3.70
自引率
0.00%
发文量
31
审稿时长
34 weeks
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