Robotic Self-Replication in a Structured Environment without Computer Control

2007 International Symposium on Computational Intelligence in Robotics and Automation Pub Date : 2007-06-20 DOI:10.1109/CIRA.2007.382902

S. Eno, Lauren Mace, Jianyi Liu, Brian Benson, K. Raman, Kiju Lee, M. Moses, G. Chirikjian

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引用次数: 8

Abstract

The ability to self-replicate is one of the distinctive features of living organisms. Robots capable of self-replication would have a profound impact on the field of robotics by improving lifetime and robustness. In the past our lab has built several prototypes of self-replicating robotic systems including semi-autonomous and fully-autonomous robots with microprocessor-based control, and a self-replicating electromechanical circuit composed of basic electronic elements (transistors, resistors, etc.). These previous efforts demonstrated that man-made systems with simple behaviors are capable of self-replication. Extending our previous results, in this paper, we present an autonomous self-replicating robotic system with distributed electronic components in a structured environment. Using simple discrete electronic components allows for a more uniform decomposition of each robot into simpler parts than for microprocessor-controlled systems. Ultimately, we would like to demonstrate robots that replicate from the most basic parts, and this paper represents one more step toward achieving this goal.

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无计算机控制的结构化环境中的机器人自我复制

自我复制的能力是生物体的显著特征之一。具有自我复制能力的机器人将对机器人领域产生深远的影响，因为它可以提高机器人的使用寿命和健壮性。在过去，我们的实验室已经建立了几个自我复制机器人系统的原型，包括基于微处理器控制的半自动和全自动机器人，以及由基本电子元件(晶体管，电阻等)组成的自我复制机电电路。这些先前的努力表明，具有简单行为的人造系统能够自我复制。在本文中，我们扩展了之前的研究结果，提出了一个结构化环境中具有分布式电子元件的自主自我复制机器人系统。与微处理器控制的系统相比，使用简单的离散电子元件可以将每个机器人更均匀地分解成更简单的部分。最终，我们想展示机器人从最基本的部分复制，这篇论文代表了实现这一目标的又一步。

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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2007 International Symposium on Computational Intelligence in Robotics and Automation

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