The Evolution of Control and Adaptation in a 3D Powered Passive Dynamic Walker

机译：3D被动式动态助步器中控制和自适应的发展

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Humans demonstrate speed, efficiency, and adaptability when traveling over rugged terrain. Bipedal robots modeled on biological designs could replace or assist people working in difficult environments. However, current research into humanoid robots has not produced practical machines. This paper explores the use of evolutionary robotics to evolve a simulation of a ten-degree of freedom bipedal robot. This machine demonstrates many of the properties of human locomotion. By using passive dynamics and compliant tendons it conserves energy while walking on a flat surface. Its speed and gait can be dynamically adjusted and it is capable of adapting to discrepancies in both its environment and its bodies' construction.

机译：在崎terrain的地形上行驶时，人类表现出速度，效率和适应性。以生物设计为模型的双足机器人可以替代或协助在困难环境中工作的人们。但是，目前对类人机器人的研究尚未产生实用的机器。本文探讨了使用进化机器人技术发展十自由度双足机器人的仿真方法。该机器演示了人类运动的许多特性。通过使用被动动力和顺应性肌腱，可以在平坦的表面行走时节省能量。它的速度和步态可以动态调整，并且能够适应其环境和身体构造的差异。

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《International Conference on the Simulation and Synthesis of Artificial Life; ;》|2004年|139-145|共7页
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Eric D. Vaughan; Ezequiel Di Paolo; Inman R. Harvey;
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Centre for Computational Neuroscience and Robotics, University of Sussex, Brighton, BN1 9QH;

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原文格式 PDF
正文语种 eng
中图分类人工智能理论;
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入库时间 2022-08-26 14:26:18

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1. Pseudo-passive dynamic walkers designed by coupled evolution of the controller and morphology [J] . Kojiro Matsushita, Hiroshi Yokoi, Tamio Arai Robotics and Autonomous Systems . 2006,第8期

机译：通过控制器和形态的耦合进化设计的伪被动动态助步器
2. From a 3D Passive Biped Walker to a 3D Passivity-Based Controlled Robot [J] . Beigzadeh Borhan, Sabaapour Mohammad Reza, Yazdi Mohammad Reza Hairi, International journal of humanoid robotics . 2018,第4期

机译：从3D被动Biped Walker到基于3D被动性的受控机器人
3. Towards a 3D passive dynamic walker to study ankle and toe functions during walking motion [J] . Wang Kunyang, Tobajas Pablo Tena, Liu Jing, Robotics and Autonomous Systems . 2019,第期

机译：朝向3D被动动态步行者在步行运动期间学习脚踝和脚趾功能
4. The Evolution of Control and Adaptation in a 3D Powered Passive Dynamic Walker [C] . Eric D. Vaughan, Ezequiel Di Paolo, Inman R. Harvey International Conference on the Simulation and Synthesis of Artificial Life . 2004

机译：3D动力被动动态步行者控制与适应的演变
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6. Assessment of transfemoral amputees using a passive microprocessor-controlled knee versus an active powered microprocessor-controlled knee for level walking [O] . Veerle Creylman, Ingrid Knippels, Paul Janssen, 2016

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7. The Evolution of Control and Adaptation in a 3D Powered Passive Dynamic Walker [O] . 2004

机译：3D动力被动动态步行者控制与适应的演变

The Evolution of Control and Adaptation in a 3D Powered Passive Dynamic Walker

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