A STUDY OF SELF-AWARENESS IN ROBOTS

International Journal of Machine Consciousness Pub Date : 2013-09-02 DOI:10.1142/S1793843013500030

Toshiyuki Takiguchi, A. Mizunaga, J. Takeno

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引用次数: 5

Abstract

The present paper studies self-awareness and introduces some self-awareness related incidents. It then describes the relationship between self-awareness and consciousness and explains the MoNAD, a neural network circuit developed by the authors that capably describes the phenomena of self-awareness and consciousness. A model of self-awareness is then presented. This self-awareness model is a parallel network system in which multiple independent MoNADs communicate with one another. In experiments with robots, three test robots were used: (1) a self-image robot reflected in a mirror, (2) another robot, and (3) a cable-connected robot behaving as commanded by the self-robot. The reactions of the three test robots to the self-robot were compared to investigate the self-awareness of the self-robot. The experiments have shown that the conditions required for the self-robot to interpret the test robot to be part of itself are: (1) the test robot must return a reaction within a certain period of time that is internally determined in the self-robot and (2) the returned reaction must be consistent with the expectation that is continually being calculated in the self-robot.

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机器人自我意识的研究

本文对自我意识进行了研究，并介绍了一些与自我意识有关的事件。然后描述了自我意识和意识之间的关系，并解释了MoNAD，这是一种由作者开发的能够描述自我意识和意识现象的神经网络电路。然后提出了一个自我意识模型。这种自我意识模型是一个并行网络系统，其中多个独立的monad相互通信。在机器人实验中，使用了三种测试机器人:(1)反射在镜子中的自我形象机器人，(2)另一个机器人，(3)根据自我机器人的命令进行操作的电缆连接机器人。通过对比三种测试机器人对自机器人的反应，考察自机器人的自我意识。实验表明，自机器人将测试机器人解释为自身的一部分所需的条件是:(1)测试机器人必须在一定时间内返回一个自机器人内部确定的反应;(2)返回的反应必须与自机器人不断计算的期望一致。

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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International Journal of Machine Consciousness

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