Moonwalkers: Evolving Robots for Locomotion in a Moon-like Environment

2021 IEEE Symposium Series on Computational Intelligence (SSCI) Pub Date : 2021-12-05 DOI:10.1109/SSCI50451.2021.9660029

Koen Van Der Pool, A. Eiben

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引用次数: 1

Abstract

Robots are arguably essential for space research in the future, but designing and producing robots for unknown environments represents a grand challenge. The field of Evolutionary Robotics offers a solution by applying the principles of natural evolution to robot design. In this paper, we consider a Moon-like environment and investigate the joint evolution of morphologies (bodies) and controllers (brains) when fitness is determined by the ability to locomote. In particular, we are interested in the evolved morphologies and compare the emerging 'life forms' in a Moonlike environment to those evolved under Earth-like conditions. To model the Moon we change two environmental properties of our baseline environment that represents the Earth: gravity is set to a low value and the flat terrain is replaced by the NASA model of the Moon landing site of the Apollo 14. The results show that changing only one of these does not lead to different evolved robot morphologies, but changing both does. Our evolved Moonwalkers are usually bigger, have fewer limbs and a less space filling shape than the robots evolved on Earth.

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月球漫步者:在类似月球的环境中运动的进化机器人

机器人在未来的空间研究中可以说是必不可少的，但是为未知环境设计和生产机器人是一个巨大的挑战。进化机器人领域通过将自然进化原理应用于机器人设计提供了一个解决方案。在本文中，我们考虑了一个类似月球的环境，并研究了当适应性由运动能力决定时，形态(身体)和控制器(大脑)的联合进化。特别是，我们对进化的形态感兴趣，并将在类月球环境中出现的“生命形式”与在类地球条件下进化的“生命形式”进行比较。为了模拟月球，我们改变了代表地球的基线环境的两个环境属性:重力设置为低值，平坦的地形被阿波罗14号登月地点的NASA模型所取代。结果表明，仅仅改变其中的一个并不会导致不同的机器人形态进化，但改变这两个都会导致不同的机器人形态进化。我们进化的月球漫步者通常比地球上进化的机器人更大，四肢更少，空间填充的形状也更小。

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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2021 IEEE Symposium Series on Computational Intelligence (SSCI)

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