Creating novel goal-directed actions using chaotic dynamics

2009 IEEE 8th International Conference on Development and Learning Pub Date : 2009-06-05 DOI:10.1109/DEVLRN.2009.5175521

H. Arie, T. Endo, Takafumi Arakaki, S. Sugano, J. Tani

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引用次数: 3

Abstract

The present study examines the possible roles of cortical chaos in generating novel actions for achieving specified goals. The proposed neural network model consists of a sensory-forward model responsible for parietal lobe functions, a chaotic network model for premotor functions and prefrontal cortex model responsible for manipulating the initial state of the chaotic network. Experiments using humanoid robot were performed with the model and showed that the action plans for satisfying specific novel goals can be generated by diversely modulating and combining prior-learned behavioral patterns at critical dynamical states. Although this criticality resulted in fragile goal achievements in the physical environment of the robot, the reinforcement of the successful trials was able to provide a substantial gain with respect to the robustness. The discussion leads to the hypothesis that the consolidation of numerous sensory-motor experiences into the memory, meditating diverse imagery in the memory by cortical chaos, and repeated enaction and reinforcement of newly generated effective trials are indispensable for realizing an open-ended development of cognitive behaviors.

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利用混沌动力学创造新颖的目标导向行动

本研究探讨了皮层混沌在产生实现特定目标的新行为中的可能作用。提出的神经网络模型包括负责顶叶功能的感觉前向模型、负责前运动功能的混沌网络模型和负责控制混沌网络初始状态的前额叶皮层模型。利用该模型对仿人机器人进行了实验，结果表明，在关键动态状态下，通过对先验学习行为模式进行多种调节和组合，可以生成满足特定新目标的行动计划。尽管这种临界性导致机器人在物理环境中实现脆弱的目标，但成功试验的加强能够在鲁棒性方面提供实质性的增益。这一讨论提出了这样的假设:为了实现认知行为的开放式发展，大量的感觉运动经验巩固到记忆中，通过皮层混乱在记忆中冥想不同的图像，以及对新产生的有效试验的重复制定和强化是必不可少的。

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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2009 IEEE 8th International Conference on Development and Learning

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