Designing Collective Behavior in a Termite-Inspired Robot Construction Team

Justin Werfel; Kirstin Petersen; Radhika Nagpal

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Designing Collective Behavior in a Termite-Inspired Robot Construction Team

机译：在受白蚁启发的机器人施工团队中设计集体行为

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Complex systems are characterized by many independent components whose low-level actions produce collective high-level results. Predicting high-level results given low-level rules is a key open challenge; the inverse problem, finding low-level rules that give specific outcomes. We present a multi-agent construction system inspired by mound-building termites, solving such an inverse problem. A user specifies a desired structure, and the system automatically generates low-level rules for independent climbing robots that guarantee production of that structure. Robots use only local sensing and coordinate their activity via the shared environment. We demonstrate the approach via a physical realization with three autonomous climbing robots limited to onboard sensing. This work advances the aim of engineering complex systems that achieve specific human-designed goals.

机译：复杂的系统具有许多独立的组件，这些组件的低级别操作会产生集体的高级结果。在低级别规则的情况下预测高级别结果是一个关键的开放挑战。反问题，找到给出特定结果的低级规则。我们提出了一种受蚁丘建造白蚁启发的多主体施工系统，可以解决这种逆问题。用户指定所需的结构，系统会为独立的攀爬机器人自动生成低级规则，以保证该结构的生产。机器人仅使用局部感应，并通过共享环境协调其活动。我们通过仅限于机载感应的三个自主攀爬机器人的物理实现演示了该方法。这项工作推进了实现复杂的系统的目标，这些系统可以实现特定的人工设计目标。

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《Science》 |2014年第6172期|754-758|共5页
作者
Justin Werfel; Kirstin Petersen; Radhika Nagpal;
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作者单位

Wyss Institute for Biologically Inspired Engineering, Harvard University, Cambridge, MA 02138, USA;

Wyss Institute for Biologically Inspired Engineering, Harvard University, Cambridge, MA 02138, USA,School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138, USA;

Wyss Institute for Biologically Inspired Engineering, Harvard University, Cambridge, MA 02138, USA,School of Engineering and Applied Sciences, Harvard University, Cambridge, MA 02138, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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1. Evolving behavioral specialization in robot teams to solve a collective construction task [J] . G.S. Nitschke, M.C. Schut, A.E. Eiben Swarm and Evolutionary Computation . 2012,第Null期

机译：机器人团队不断发展的行为专业化解决集体建设任务
2. Designing Robot Teams for Distributed Construction, Repair, and Maintenance [J] . Wareham Todd ACM transactions on autonomous and adaptive systems . 2019,第1期

机译：设计用于分布式构造，维修和维护的机器人团队
3. Innovation Performance in New Product Development Teams in China's Technology Ventures: The Role of Behavioral Integration Dimensions and Collective Efficacy [J] . Jingjiang Liu, Jiyao Chen, Yi Tao Journal of product innovation management . 2015,第1期

机译：中国技术企业新产品开发团队的创新绩效：行为整合维度和集体效能的作用
4. Evolution of Collective Behavior in a Team of Physically Linked Robots [C] . Gianluca Baldassarre, Stefano Nolfi, Domenico Parisi Applications of Evolutionary Computing . 2003

机译：物理链接机器人团队中集体行为的演变
5. Collective Construction by Termite-Inspired Robots. [D] . Petersen, Kirstin Hagelskjaer. 2014

机译：受白蚁启发的机器人的集体建造。
6. Validating a Termite-Inspired Construction Coordination Mechanism Using an Autonomous Robot [O] . Nicole E. Carey, Paul Bardunias, Radhika Nagpal, 2021

机译：使用自主机器人验证白蚁激发的施工协调机制
7. Evolving Behavioral Specialization in Robot Teams to Solve a Collective Construction Task [O] . Nitschke, G., Schut, M.C., Eiben, A.E. 2012

机译：机器人团队不断发展的行为专业化解决集体建设任务
8. Behavioral Dynamics in the Cooperative Control of Mixed Human/Robotic Teams. [R] . Baillieul, J., Castanon, D., Cohen, J. D., 2015

机译：混合人/机器人团队协同控制中的行为动力学。

Designing Collective Behavior in a Termite-Inspired Robot Construction Team

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