Title :
Parallel computation of configuration space on reconfigurable mesh with faults
Author :
Jenq, John Jing-Fu ; Wang, Dajin
Author_Institution :
Dept. of Comput. Sci., Montclair State Univ., Upper Montclair, NJ, USA
Abstract :
A reconfigurable mesh (RMESH) can be used to compute robotic paths in the presence of obstacles, where the robot and obstacle images are represented and processed in mesh processors. For a non-point-like robot, we can compute the so-called “configuration space” to expand the obstacles, so that the robot can be reduced to a reference point to facilitate the robot´s motion planning. In this paper, we present algorithms to compute the configuration space in a reconfigurable mesh that contains sparsely distributed faulty processors. Robots of rectangular and circular shapes are treated. It is seen that, in terms of computing the configuration space, a reconfigurable mesh can tolerate faulty processors without much extra cost-the computation takes the optimal O(1) time in both fault-free and faulty reconfigurable meshes
Keywords :
computational complexity; fault tolerant computing; mobile robots; multiprocessor interconnection networks; parallel architectures; parallel programming; path planning; reconfigurable architectures; robot programming; circular shape; configuration space; fault tolerance; mesh processors; nonpoint-like robot; obstacles; optimal time complexity; parallel computation; reconfigurable mesh; rectangular shape; reference point; robot motion planning; robotic path computation; sparsely distributed faulty processors; Computer science; Concurrent computing; Distributed computing; Hypercubes; Motion planning; Orbital robotics; Parallel algorithms; Parallel robots; Path planning; Shape;
Conference_Titel :
Parallel Processing, 2000. Proceedings. 2000 International Workshops on
Conference_Location :
Toronto, Ont.
Print_ISBN :
0-7695-0771-9
DOI :
10.1109/ICPPW.2000.869111
