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Quadrupedal Robot Locomotion: A Biologically Inspired Approach and Its Hardware Implementation

Andrés Espinal, Horacio Rostro‐González, Martín Carpio, Erick I. Guerra-Hernández, Manuel Ornelas-Rodríguez, Héctor José Puga Soberanes, Marco Aurelio Sotelo-Figueroa, Patricia Melín

发表年份
2016
引用次数
27
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摘要

A bioinspired locomotion system for a quadruped robot is presented. Locomotion is achieved by a spiking neural network (SNN) that acts as a Central Pattern Generator (CPG) producing different locomotion patterns represented by their raster plots. To generate these patterns, the SNN is configured with specific parameters (synaptic weights and topologies), which were estimated by a metaheuristic method based on Christiansen Grammar Evolution (CGE). The system has been implemented and validated on two robot platforms; firstly, we tested our system on a quadruped robot and, secondly, on a hexapod one. In this last one, we simulated the case where two legs of the hexapod were amputated and its locomotion mechanism has been changed. For the quadruped robot, the control is performed by the spiking neural network implemented on an Arduino board with 35% of resource usage. In the hexapod robot, we used Spartan 6 FPGA board with only 3% of resource usage. Numerical results show the effectiveness of the proposed system in both cases.

关键词

HexapodCentral pattern generatorRobotComputer scienceSpiking neural networkSimulationModularity (biology)Robot locomotionNetwork topologyArtificial neural network

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