Using Self-Imitation to Direct Learning

ROMAN 2006 - The 15th IEEE International Symposium on Robot and Human Interactive Communication Pub Date : 2006-09-01 DOI:10.1109/ROMAN.2006.314425

J. Saunders, Chrystopher L. Nehaniv, K. Dautenhahn

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引用次数: 6

Abstract

An evolutionary predecessor to observational imitation may have been self-imitation. Self-imitation is where an agent is able to learn and replicate actions it has experienced through the manipulation of its body by another. This form of imitative learning has the advantage of avoiding some of the complexities encountered in observational learning such as the correspondence problem. We investigate how a system using self-imitation can be constructed with reference to psychological models of motor control including ideomotor theory and ideas from social scaffolding seen in animals to allow us to construct a robotic control system. The system allows a human trainer to teach a robot new skills and modify existing skills. Additionally the system allows the robot to notify the trainer when it is being taught skills it already possesses. We argue that this mechanism may be the first step towards the transformation from self-imitation to observational imitation. We demonstrate the system on a physical Pioneer robot with a 5-DOF arm and pan/tilt camera which is taught using self-imitation to track and point to coloured objects

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用自我模仿指导学习

观察模仿的进化前身可能是自我模仿。自我模仿是指一个主体能够学习和复制它通过另一个主体对其身体的操纵所经历的动作。这种形式的模仿学习的优点是避免了观察学习中遇到的一些复杂性，比如对应问题。我们研究了如何利用自我模仿来构建一个系统，参考运动控制的心理模型，包括概念运动理论和动物社会脚手架的想法，使我们能够构建一个机器人控制系统。该系统允许人类训练师教授机器人新技能并修改现有技能。此外，该系统还允许机器人在学习已经掌握的技能时通知训练师。我们认为，这种机制可能是自我模仿向观察模仿转变的第一步。我们在一个具有5自由度手臂和平移/倾斜相机的物理先锋机器人上演示了该系统，该机器人使用自我模仿来跟踪和指向彩色物体

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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ROMAN 2006 - The 15th IEEE International Symposium on Robot and Human Interactive Communication

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