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Biologically Inspired Control System for 3-D Locomotion of a Humanoid Biped Robot

Azhar Aulia Saputra, János Botzheim, Indra Adji Sulistijono, Naoyuki Kubota

发表年份
2015
引用次数
54

摘要

This paper proposes the control system for 3-D locomotion of a humanoid biped robot based on a biological approach. The muscular system in the human body and the neural oscillator for generating locomotion signals are adapted in this paper. We extend the neuro-locomotion system for modeling a multiple neuron system, where motoric neurons represent the muscular system and sensoric neurons represent the sensor system inside the human body. The output signals from coupled neurons representing the angle joint level are controlled by gain neurons that represent the energy burst for driving the joint in each motor. The direction and the length of step in robot locomotion can be adjusted by command neurons. In order to form the locomotion pattern, we apply multiobjective evolutionary computation to solve the multiobjective problem when optimizing synapse weights between the motoric neurons. We use recurrent neural network (RNN) for the stabilization system required for supporting locomotion. RNN generates a dynamic weight synapse value between the sensoric neuron and the motoric neuron. The effectiveness of our system is demonstrated in open dynamic engine computer simulation and in a real robot application that has 12 degrees of freedom (DoFs) in legs and four DoFs in hands.

关键词

Computer scienceRobotHumanoid robotDegrees of freedom (physics and chemistry)Robot locomotionArtificial neural networkRecurrent neural networkMuscular systemArtificial intelligenceControl theory (sociology)

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