An Artificial Soft Somatosensory System for a Cognitive Robot

2020 Fourth IEEE International Conference on Robotic Computing (IRC) Pub Date : 2020-11-01 DOI:10.1109/IRC.2020.00058

A. Augello, Ignazio Infantino, S. Gaglio, U. Maniscalco, G. Pilato, Filippo Vella

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引用次数: 3

Abstract

The paper proposes an artificial somatosensory system loosely inspired by human beings' biology and embedded in a cognitive architecture (CA). It enables a robot to receive the stimulation from its embodiment, and use these sensations, we called roboceptions, to behave according to both the external environment and the internal robot status. In such a way, the robot is aware of its body and able to interpret physical sensations can be more effective in the task while maintaining its well being. The robot's physiological urges are tightly bound to the specific physical state of the robot. Positive and negative physical information can, therefore, be processed and let the robot behave in a more realistic way adopting the right trade-off between the achievement of the task and the well-being of the robot. This goal has been achieved through a reinforcement learning approach. To test these statements we considered, as a test-bench, the execution of working performances with an SoftBank NAO robot that are modulated according its body well-being.

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用于认知机器人的人工软体感系统

本文提出了一种受人类生物学启发并嵌入认知架构(CA)的人工体感系统。它使机器人能够接受来自其身体的刺激，并利用这些感觉，我们称之为机器人感知，根据外部环境和机器人内部状态做出反应。通过这种方式，机器人能够意识到自己的身体，并能够解释身体的感觉，从而在保持健康的同时更有效地完成任务。机器人的生理冲动与机器人的特定物理状态紧密相连。因此，积极和消极的物理信息可以被处理，让机器人以更现实的方式行事，在完成任务和机器人的幸福之间采取正确的权衡。这一目标已经通过强化学习方法实现。为了测试这些陈述，我们考虑了一个试验台，根据其身体健康调节的软银NAO机器人的工作性能执行。

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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2020 Fourth IEEE International Conference on Robotic Computing (IRC)

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