Dynamics analysis of bionic parallel joint mechanism for the snake robot

Dynamics analysis of bionic parallel joint mechanism for the snake robot

Joint mechanism is a key factor for a snake robot adjusting its postures adapted to clutter environments in search and rescue tasks. Most joint mechanisms in prior research simply consist of serially connected revolute joints, which are lack of great load carrying ability. Imitating nature snake str...

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Bibliographic Details
Published in:2016 35th Chinese Control Conference (CCC) pp. 6301 - 6306
Main Authors: Wu, Chuncheng, Cao, Zhengcai, Xiao, Qing, Fu, Yili
Format: Conference Proceeding Journal Article
Language:English
Published: TCCT 01-07-2016
Subjects:
Actuators
Bionic parallel joint mechanism
Bionics
Dynamic tests
Dynamics
Dynamics analysis
Gravity
Links
Mathematical analysis
Mathematical models
Newton method
Rescue snake robot
Ribs
Robots
Screw theory
Silicon
Snakes
Time factors
Visualization
Online Access:Get full text
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Summary:Joint mechanism is a key factor for a snake robot adjusting its postures adapted to clutter environments in search and rescue tasks. Most joint mechanisms in prior research simply consist of serially connected revolute joints, which are lack of great load carrying ability. Imitating nature snake structure, a modular bionic parallel joint mechanism (BPJM) is proposed for the rescue snake robot. Dynamics analysis of the BPJM is necessary for its optimal design and control, providing the force and constraint that must be resisted by joints, links and actuators. To reduce the dynamics computation load, Newton equation and Euler equation are combined by synchronizing the inertial force and inertial moment with the aid of screw theory. Therefore, the dynamics equations for moving platform and links are formulated in a simplified form. Viscous friction at the joints and external force acting on BPJM, which actually affect the motion, are both considered in the formulation. Finally, the virtual prototype is provided in order to visualize the joint mechanism and the numerical results from the dynamics analysis are given.
Bibliography:ObjectType-Article-2
SourceType-Scholarly Journals-1
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SourceType-Conference Papers & Proceedings-2
ISSN:2161-2927
1934-1768
DOI:10.1109/ChiCC.2016.7554346