Title :
Modular drive system for a planetary exploration mobility platform
Author :
Amato, Joseph L. ; Anderson, Jon J. ; Carlone, Thomas J. ; Fagan, Michael E. ; Stafford, Kenneth A. ; Padir, Taskin
Abstract :
This paper discusses the design of a modular drive system for a planetary rover, and presents the testing and thermal monitoring results to validate the design. A rover, Oryx 2.0, is designed and developed to serve as a research platform that can transport payloads over rough terrain. One of the key design features is the modular drive system. The mechanical design, communications and control interfaces are discussed. Moreover, EPOS2 motion controllers by Maxon Motor are explored as motor controllers for the drive system as they provide an easy-to-use high level motor control functionality. The paper will outline step-by-step instructions for setting up the EPOS2 libraries and drivers in Linux/Robot Operating System (ROS) environment. The details of testing procedures and results for the motor modules are also provided.
Keywords :
Linux; aerospace computing; aerospace robotics; control engineering computing; design engineering; drives; mechanical engineering computing; mobile robots; motion control; planetary rovers; EPOS2 drivers; EPOS2 libraries; EPOS2 motion controllers; Linux-robot operating system; Maxon Motor; Oryx 2.0; communications interfaces; control interfaces; high level motor control functionality; mechanical design; modular drive system; motor controllers; planetary exploration mobility platform; planetary rover; thermal monitoring; Brushless motors; Libraries; Temperature measurement; Temperature sensors; Testing; Traction motors; Wheels;
Conference_Titel :
Technologies for Practical Robot Applications (TePRA), 2012 IEEE International Conference on
Conference_Location :
Woburn, MA
Print_ISBN :
978-1-4673-0855-7
DOI :
10.1109/TePRA.2012.6215672
