Research on Control of Crus Vibration Attenuation for Biped Robots

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Research on Control of Crus Vibration Attenuation for Biped Robots

ZHANG Lu ¹,MAO Weiwei ²,LIANG Qing¹,ZHOU Feng¹

(1.School of Information Science and Technology,University of Science and Technology of China,Hefei 230027,China; 2.The 5th Department,Bengbu Navy Petty Officer School,Bengbu,Anhui 233012,China)

Received:2016-12-21 Online:2018-01-15 Published:2018-01-15

足式机器人小腿减振控制研究

张璐¹,毛伟伟²,梁青¹,周烽¹

(1.中国科学技术大学信息科学技术学院,合肥 230027; 2.海军蚌埠士官学校五系,安徽蚌埠 233012)

作者简介:张璐(1992—),女,硕士研究生,主研方向为机器人、主动振动控制;毛伟伟,讲师;梁青,副教授;周烽,讲师。
基金资助:
中央高校基本科研业务费专项资金(WK2100100017)。

Abstract

Abstract:

The stability control strategy of biped robot walking process is studied,and a crus vibration control system based on the vibration acceleration of the upper body of the robot as feedback is designed.Through virtual simulation analysis software——Automatic Dynamic Analysis of Mechanical System(ADAMS),the virtual prototype of the biped robot is built and imported into Matlab.The automatic anti-disturbance control algorithm is designed to suppress the low frequency and high frequency according to active and passive vibration attenuation.Simulation results show that active and passive vibration attenuation greatly reduces the vibration of the upper body of the robot and compensates the situation that passive vibration can not suppress the low frequency vibration,and effectively improves the stability of the robot.

Key words: biped robots, virtual prototype, active and passive vibration attenuation, Active Disturbance Rejection Control(ADRC) algorithm, Automatic Dynamic Analysis of Mechanical System(ADAMS) model

摘要：

研究足式机器人行走过程的稳定性优化控制策略,设计一种基于机器人上身平台振动加速度为反馈的小腿减振控制系统。通过虚拟仿真分析软件——机械系统动力学自动分析构建足式机器人小腿虚拟样机,并导入到Matlab中进行主动减振的自抗扰控制算法设计,根据主动和被动减振分别抑制低频和高频振动。仿真结果表明,主被动联合减振大幅衰减了机器人上身平台的振动,弥补被动减振对低频振动无法抑制的情况,有效提高了机器人行走的稳定性。

关键词: 足式机器人, 虚拟样机, 主被动减振, 自抗扰控制算法, 机械系统动力学自动分析模型

CLC Number:

TP 273

ZHANG Lu,MAO Weiwei,LIANG Qing,ZHOU Feng. Research on Control of Crus Vibration Attenuation for Biped Robots[J]. Computer Engineering.

张璐,毛伟伟,梁青,周烽. 足式机器人小腿减振控制研究[J]. 计算机工程.

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URL: http://www.ecice06.com/EN/Y2018/V44/I1/30

References

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[1]	MAO Weiwei,ZHOU Feng,LIANG Qing,FENG Yu,YAN Yong. Study on Vibration Attenuation for Robot Crus Based on Active Disturbance Rejection Control [J]. Computer Engineering, 2016, 42(7): 293-298.
[2]	YAN Chun-Wu. Research on Obstacle Negotiation of Master-slave Track Compound Robot [J]. Computer Engineering, 2012, 38(23): 203-205.
[3]	LIU Dong-Cai, LI Duan-Fa, LIAN Guo-Fu, SHEN Yuan, DU Chang-An. Research on Modeling and Simulation Method of Grating Ruling Engine [J]. Computer Engineering, 2012, 38(04): 31-34.
[4]	ZHOU Xiao-Guang, HUANG Jing-Chao. Distributed Collaborative Simulation on Adams and Simulink [J]. Computer Engineering, 2011, 37(15): 228-231.
[5]	FANG Chuan-lei; SU Qun-xing; LIU Peng-yuan; HE Jian-bin. General Platform for Virtual Maintenance Training System of Missile Equipment [J]. Computer Engineering, 2009, 35(3): 274-276.
[6]	HAN Hu; ZENG Qing-liang; SUN Cheng-tong; WANG Cheng-long. Design and Implementation of Virtual Prototype Collaborative Development Platform for Complex Product [J]. Computer Engineering, 2009, 35(1): 260-262,.

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