基于混沌递归神经网络的自适应联合轨迹发生器

2015 Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob) Pub Date : 2015-12-02 DOI:10.1109/DEVLRN.2015.7346158

M. Folgheraiter, Nazgul Tazhigaliyeva, Aibek S. Niyetkaliyev

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引用次数: 0

摘要

本文的目的是介绍一种基于递归神经网络的可扩展自适应联合轨迹生成器。作为主要应用，我们针对高冗余的运动结构，如人形和多腿机器人系统。该网络结构由一组泄漏积分器组成，其输出受s型激活函数的限制。神经回路表现出非常丰富的动态性，能够在没有外部输入直接激励的情况下产生复杂的周期信号。自发的内部活动是可能的，这要归功于循环连接的存在和与信号重叠的高斯噪声源。通过调制网络的内部混沌水平，可以使系统探索高维空间，从而学习非常复杂的时间序列。一组初步的模拟展示了一个由100个单元组成的相对较小的网络如何能够产生不同的运动路径，这些运动路径可以由外部感觉信号触发。

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Adaptive joint trajectory generator based on a chaotic recurrent neural network

The aim of this paper is to introduce a scalable and adaptable joint trajectory generator based on a recurrent neural network. As main application we target highly redundant kinematic structures like humanoid and multi-legged robotic systems. The network architecture consists of a set of leak integrators which outputs are limited by sigmoidal activation functions. The neural circuit exhibits very rich dynamics and is capable to generate complex periodic signals without the direct excitation of external inputs. Spontaneous internal activity is possible thanks to the presence of recurrent connections and a source of Gaussian noise that is overlapped with the signals. By modulating the internal chaotic level of the network it is possible to make the system exploring high-dimensional spaces and therefore to learn very complex time sequences. A preliminary set of simulations demonstrated how a relatively small network composed of hundred units is capable to generate different motor paths which can be triggered by exteroceptive sensory signals.

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来源期刊

2015 Joint IEEE International Conference on Development and Learning and Epigenetic Robotics (ICDL-EpiRob)

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