Multi-processor architecture for a versatile autonomous robot

Author

Voinescu, Andrei ; Dragomir, D. ; Draghici, A. ; Bara, Paul

Author_Institution

Autom. Control & Comput. Fac., Univ. Politeh. of Bucharest, Bucharest, Romania

fYear

2013

fDate

26-27 Aug. 2013

Firstpage

109

Lastpage

114

Abstract

This paper presents a versatile, multi-role robotic platform optimized for advanced motion in line-following scenarios with application to robotic contests, education and specialized tasks. Generally, academic robotic platforms either provide only basic motion features, or are too specialized. Our platform´s goal is to be sufficiently versatile to be adapted easily to any task, but to provide performance in common scenarios. For this aim, our modular system is comprised of a Mecanum-wheel based omnidirectional motion system with a dense array of line sensors. The system comprises other sensors and actuators, which can be replaced or augmented with more specialized sensors and mechanical systems for each application. We demonstrate our platform in a contest scenario.

Keywords

mobile robots; motion control; multiprocessing systems; sensor arrays; wheels; Mecanum-wheel-based omnidirectional motion system; academic robotic platforms; education tasks; line sensor array; line-following scenarios; mechanical systems; modular system; motion features; multiprocessor architecture; multirole robotic platform; robotic contests; versatile autonomous robot; Mobile robots; Robot sensing systems; Sensor arrays; Sensor systems; Wheels; Mecanum wheeL; autonomous robot; omnidirectional motion;

fLanguage

English

Publisher

ieee

Conference_Titel

Systems and Computer Science (ICSCS), 2013 2nd International Conference on

Conference_Location

Villeneuve d´Ascq

Print_ISBN

978-1-4799-2020-4

Type

conf

DOI

10.1109/IcConSCS.2013.6632032

Filename

6632032