模块化设计
机器人
分布式计算
适应性
计算机科学
可扩展性
可靠性(半导体)
弹性(材料科学)
资源(消歧)
共享资源
国家(计算机科学)
自重构模块化机器人
高效能源利用
工程类
传感器融合
可能性
灵活性(工程)
组分(热力学)
人机交互
资源管理(计算)
信息共享
比例(比率)
能量(信号处理)
移动机器人
作者
Kevin Holdcroft,Anastasia Bolotnikova,Antoni Jubés Monforte,Jamie Paik
出处
期刊:Science robotics
[American Association for the Advancement of Science]
日期:2026-02-11
卷期号:11 (111): eady6304-eady6304
标识
DOI:10.1126/scirobotics.ady6304
摘要
No system is immune to failure. The compromise between reducing failures and improving adaptability is a recurring problem in robotics. Modular robots exemplify this tradeoff, because the number of modules dictates both the possible functions and the odds of failure. We reverse this trend, improving reliability with an increased number of modules by exploiting redundant resources and sharing them locally. We present a unified methodology for local resource sharing; local power sharing balances energy distribution, hybrid communication spreads messages, and local sensor fusion propagates full system state estimate information among the robot collective. We present the experimental results of our methodology applied to a modular robot, Mori3. Despite one module being deprived of its own resources in terms of power, sensing, and communication, the robot collective can successfully perform a locomotion mission in a challenging environment, thanks to neighboring modules supporting each other via our proposed resource-sharing methodology.
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