Eciton robotica: Design and Algorithms for an Adaptive Self-Assembling Soft Robot Collective

Melinda J. D. Malley, Bahar Haghighat, Lucie Houel, R. Nagpal
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引用次数: 16

Abstract

Social insects successfully create bridges, rafts, nests and other structures out of their own bodies and do so with no centralized control system, simply by following local rules. For example, while traversing rough terrain, army ants (genus Eciton) build bridges which grow and dissolve in response to local traffic. Because these self-assembled structures incorporate smart, flexible materials (i.e. ant bodies) and emerge from local behavior, the bridges are adaptive and dynamic. With the goal of realizing robotic collectives with similar features, we designed a hardware system, Eciton robotica, consisting of flexible robots that can climb over each other to assemble compliant structures and communicate locally using vibration. In simulation, we demonstrate self-assembly of structures: using only local rules and information, robots build and dissolve bridges in response to local traffic and varying terrain. Unlike previous self-assembling robotic systems that focused on latticebased structures and predetermined shapes, our system takes a new approach where soft robots attach to create amorphous structures whose final self-assembled shape can adapt to the needs of the group.
工程机器人:自适应自组装软机器人群的设计与算法
群居昆虫成功地用自己的身体建造桥梁、木筏、巢穴和其他结构,它们这样做没有中央控制系统,只是遵循当地的规则。例如,在穿越崎岖的地形时,军蚁(Eciton属)会建造桥梁,这些桥梁会根据当地的交通情况而生长和溶解。由于这些自组装结构结合了智能、灵活的材料(即蚂蚁体),并从当地行为中出现,因此桥梁具有适应性和动态性。为了实现具有相似特征的机器人集体,我们设计了一个硬件系统,Eciton robotica,由灵活的机器人组成,这些机器人可以爬过彼此来组装兼容的结构,并利用振动进行局部通信。在模拟中,我们展示了结构的自组装:仅使用局部规则和信息,机器人根据当地交通和变化的地形建造和拆除桥梁。与之前专注于基于晶格结构和预定形状的自组装机器人系统不同,我们的系统采用了一种新的方法,软机器人附着在一起创建非晶结构,其最终的自组装形状可以适应群体的需要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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