Title :
Design and control of a second-generation hyper-redundant mechanism
Author :
Brown, H. Benjamin ; Schwerin, Michael ; Shammas, E. ; Choset, H.
Author_Institution :
Carnegie Mellon Univ., Pittsburgh
fDate :
Oct. 29 2007-Nov. 2 2007
Abstract :
We present a refined, second-generation design, construction and integration, of a compact hyper-redundant snakelike robot, called "Woodstock." This robot has substantial advantages over our previous design iteration, "Snoopy," in terms of cost and performance. The robot is composed of six actuated universal joints which are serially chained to construct a twelve degrees of freedom snake-like robot optimized for strength and compactness. Any joint in the robot is strong enough to produce a torque that is capable of cantilevering the entire robot. This paper also presents the low-level system- control architecture, which is based on a high-speed RS-485 data bus; this allows the entire system to be operated with only two power and two data wires. The system is controlled from a remote computer on a wireless network and can also run over the Internet.
Keywords :
Internet; cantilevers; control engineering computing; mobile robots; redundant manipulators; system buses; torque control; Internet; RS-485 data bus; Snoopy; Woodstock; design iteration; hyper-redundant snakelike robot; low-level system-control architecture; remote computer; second-generation hyper-redundant mechanism; torque control; universal joints; wireless network; Control systems; Costs; Intelligent robots; Manipulators; Mobile robots; National electric code; Notice of Violation; Orbital robotics; Robotic assembly; USA Councils; hyper-redundant mechanism; mechanical design; mechatronics; mobile base; snake robots;
Conference_Titel :
Intelligent Robots and Systems, 2007. IROS 2007. IEEE/RSJ International Conference on
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4244-0912-9
Electronic_ISBN :
978-1-4244-0912-9
DOI :
10.1109/IROS.2007.4399504
