Dynamic simulation for 6-strut tensegrity robots

Author

Wenjuan Du ; Shugen Ma ; Bin Li ; Minghui Wang ; Hirai, Shinichi

Author_Institution

State Key Lab. of Robot., Shenyang Inst. of Autom., Shenyang, China

fYear

2014

fDate

28-30 July 2014

Firstpage

870

Lastpage

875

Abstract

Tensegrity robots are novel flexible mobile robots based on the conception of “tensegrity structures” that cited from the architecture. Tensegrity robots possess high strength-mass ratio, deformation capacity and shock resistance ability and can adapt to the environment with self-deformations. Existing simulations for tensegrity robots are carried out with Matlab that required complex dynamics modeling process and additional force constraints. Using ODE (Open Dynamic Engine) as a simulation tool can avoid the cumbersome modeling process. However, the robot model would collapse with the growth of DOFs (Degrees of Freedom). This paper solves the stable problem caused by large number of DOFs and builds a simulation environment for 6-strut tensegrity robots. Dynamic simulations for rolling and crawling gaits are performed in the simulation environment.

Keywords

control engineering computing; force control; mobile robots; robot dynamics; 6-strut tensegrity robots; ODE simulation tool; Open Dynamic Engine; crawling gait; deformation capacity; dynamics modeling process; flexible mobile robots; force constraints; rolling gait; shock resistance ability; strength-mass ratio; tensegrity structure concept; Actuators; Collision avoidance; Force; Friction; Joints; Mathematical model; Robots; Open Dynamic Engine; Simulations; Tensegrity robots;

fLanguage

English

Publisher

ieee

Conference_Titel

Information and Automation (ICIA), 2014 IEEE International Conference on

Conference_Location

Hailar

Type

conf

DOI

10.1109/ICInfA.2014.6932774

Filename

6932774