Title :
Research on self-reconfigurable ability of remote control system
Author_Institution :
TSL Sch. of Bus. & Inf. Technol., Quanzhou Normal Univ., Quanzhou, China
Abstract :
Setting in the mobile robots in the damageable unknown environment, the paper is to do research on the self-repair design for recombining the internal control system by the self-reconfigurable-robots´ reconfigurable control algorithms in remote control application. This paper discussed the reconfigurable design preventing being damaged later from the aspects of the reconfigurable and self-repairable subassembly design of the remote control system, the embedded operating system design of the self-reconfigurable robots, operating system scheduling for the hardware mission, operating system scheduling for the software system, multiprocessing embedded supported cooperative system and Multi-Agent System principle etc.
Keywords :
control system synthesis; embedded systems; mobile robots; multi-agent systems; multiprocessing systems; operating systems (computers); reconfigurable architectures; telerobotics; damageable unknown environment; embedded operating system design; internal control system; mobile robots; multiagent system principle; multiprocessing embedded supported cooperative system; operating system scheduling; reconfigurable control algorithm; reconfigurable design; remote control system; self-reconfigurable ability; self-reconfigurable robots; self-repair design; self-repairable subassembly design; software system; Control systems; Embedded systems; Hardware; Processor scheduling; Robot kinematics; Multi-Agent System; remote control system; self-reconfigurable; self-repair;
Conference_Titel :
Control and Decision Conference (CCDC), 2012 24th Chinese
Conference_Location :
Taiyuan
Print_ISBN :
978-1-4577-2073-4
DOI :
10.1109/CCDC.2012.6243039
