通过运动模式逆向工程的峰值中心模式发生器

Cognitive and Computational Neuroscience - Principles, Algorithms and Applications Pub Date : 2018-05-30 DOI:10.5772/INTECHOPEN.72348

Andrés Espinal, M. Sotelo-Figueroa, H. J. Estrada-García, M. Ornelas-Rodríguez, H. Rostro-González

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引用次数: 1

摘要

在机器人技术中，已经提出了基于人工神经网络的非轮式机器人运动方法;那些具有可信神经元的神经元被称为尖波中枢模式发生器(scpg)。在本章中，我们介绍了已报道的用于自动设计腿式机器人运动系统的SCPG的确定性和随机逆向工程方法的概括;当一个脉冲神经元模型和一个或多个运动步态作为输入时，这种方法创建了一个脉冲神经网络，能够内源性地周期性地复制一个或多个有节奏的信号集。设计的scpg已经在各种机器人平台的不同机器人控制器中实现。最后，指出了改进和/或补充这些基于scpg的运动系统的一些方面。

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Spiking Central Pattern Generators through Reverse Engineering of Locomotion Patterns

In robotics, there have been proposed methods for locomotion of nonwheeled robots based on artificial neural networks; those built with plausible neurons are called spiking central pattern generators (SCPGs). In this chapter, we present a generalization of reported deterministic and stochastic reverse engineering methods for automatically designing SCPG for legged robots locomotion systems; such methods create a spiking neural network capable of endogenously and periodically replicating one or several rhythmic signal sets, when a spiking neuron model and one or more locomotion gaits are given as inputs. Designed SCPGs have been implemented in different robotic controllers for a variety of robotic platforms. Finally, some aspects to improve and/or complement these SCPG-based locomotion systems are pointed out.

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Cognitive and Computational Neuroscience - Principles, Algorithms and Applications

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