An embedded controller for a quadruped robot based on ARM and DSP

2016 IEEE International Conference on Mechatronics and Automation Pub Date : 2016-08-01 DOI:10.1109/ICMA.2016.7558714

Cong Wang, Wei Wang

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引用次数: 2

Abstract

The performance of controllers have deep influence on the capability of the quadruped robot. In this paper, we design and implement an embedded controller, which is made up of two parts: upper layer ARM controller and lower layer DSP controller. The ARM controller, integrated with a WIFI module to facilitate remote control by PC, is responsible for gait planning and sensors information processing. The DSP controller is mainly designed to receive real-time control commands from ARM controller via serial peripheral interfaces (SPI) and communicate with motor drivers through Controller Area Network (CAN) bus. To achieve fairly accurate control of the quadruped robot, four force sensitive resistors (FSRs) and a gyroscope are used on the quadruped robot. The developed embedded controller has been employed to control the quadruped robot Biodog, built at our lab. Using Hopf-based Central Pattern Generator (CPG) algorithm, we conduct experiments on the quadruped robot Biodog to test the embedded controller. The results demonstrate the efficiency of our controller for the rhythmic quadruped locomotion.

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基于ARM和DSP的四足机器人嵌入式控制器

控制器的性能对四足机器人的性能有很大的影响。本文设计并实现了一个嵌入式控制器，该控制器由两部分组成:上层ARM控制器和下层DSP控制器。ARM控制器集成WIFI模块，便于PC远程控制，负责步态规划和传感器信息处理。DSP控制器主要通过串行外设接口(SPI)接收来自ARM控制器的实时控制命令，并通过控制器局域网(CAN)总线与电机驱动器通信。为了实现对四足机器人的相当精确的控制，四足机器人上使用了四个力敏电阻(FSRs)和一个陀螺仪。所开发的嵌入式控制器已用于控制本实验室研制的四足机器人Biodog。采用基于hopf的中央模式发生器(Central Pattern Generator, CPG)算法，在四足机器人Biodog上进行了嵌入式控制器的实验测试。实验结果表明，该控制器对四足动物有节奏运动的控制是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2016 IEEE International Conference on Mechatronics and Automation

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