Title :
DuCTT: A tensegrity robot for exploring duct systems
Author :
Friesen, Jeffrey ; Pogue, Alexandra ; Bewley, Thomas ; de Oliveira, Mauricio ; Skelton, Robert ; SunSpiral, Vytas
Author_Institution :
Coordinated Robot. Lab., UC San Diego, La Jolla, CA, USA
fDate :
May 31 2014-June 7 2014
Abstract :
A robot with the ability to traverse complex duct systems requires a large range of controllable motions as well as the ability to grip the duct walls in vertical shafts. We present a tensegrity robot with two linked tetrahedral frames, each containing a linear actuator, connected by a system of eight actuated cables. The robot climbs by alternately wedging each tetrahedron within the duct and moving one tetrahedron relative to the other. We first introduce our physical prototype, called DuCTT (Duct Climbing Tetrahedral Tensegrity). We next discuss the inverse kinematic control strategy used to actuate the robot and analyze the controller´s capabilities within a physics simulation. Finally, we discuss the hardware prototype and compare its performance with simulation.
Keywords :
actuators; ducts; large-scale systems; mobile robots; motion control; robot kinematics; DuCTT; actuated cables; complex duct system; controllable motion; controller capability; duct climbing tetrahedral tensegrity; duct systems; duct walls; hardware prototype; inverse kinematic control strategy; linear actuator; linked tetrahedral frames; physical prototype; physics simulation; tensegrity robot; vertical shaft; Actuators; Ducts; Force; Hardware; Mathematical model; Robot kinematics;
Conference_Titel :
Robotics and Automation (ICRA), 2014 IEEE International Conference on
Conference_Location :
Hong Kong
DOI :
10.1109/ICRA.2014.6907473
