步行机器人反应行为的模块化神经控制

2005 International Symposium on Computational Intelligence in Robotics and Automation Pub Date : 2005-06-27 DOI:10.1109/CIRA.2005.1554310

P. Manoonpong, F. Pasemann, J. Fischer

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引用次数: 10

摘要

提出了一种小型模块化神经网络，能够控制多自由度步行机器人的传感器驱动行为。该控制器由用于感知信号处理的最小循环控制器(MRC)、用于产生有节奏腿部运动的so(2)网络和扩展步行机转向能力的速度调节网络(VRN)组成。这种循环神经控制器使机器能够通过避开障碍物来探索室内环境。它在物理模拟环境中进行了开发和测试，然后成功地转移到物理四足行走机，称为AMOS-WD02。

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Modular neural control for a reactive behavior of walking machines

A small modular neural network is presented which is able to control the sensor-driven behavior of walking machines with many degrees of freedom. The controller is composed of a so called minimal recurrent controller (MRC) for sensory signal processing, a SO(2)-network as neural oscillator to generate the rhythmic leg movements, and a velocity regulating network (VRN) which expands the steering capabilities of the walking machine. This recurrent neurocontroller enables the machine to explore an in-door environment by avoiding obstacles. It was developed and tested using a physical simulation environment, and was then successfully transferred to the physical four-legged walking machine, called AMOS-WD02.

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2005 International Symposium on Computational Intelligence in Robotics and Automation

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