Paper Info
Title
Simulation of a real-time fault detection and analysis system for a CIM token ring network
Abstract
Real-time fault detection and correction for CIM (computer-integrated manufacturing) operations in a distributed system architecture are introduced. Initially, an architecture is formulated that addresses problems related to the ability to handle real-time data and uncertain information. The techniques developed establishes a secondary channel for reallocation of critical resources and provides for prioritization of channel assignment. An intelligent interface is designed to handle situations involving uncertain information that is initiated by sensors located in the CIM facility. Simulation results show that this approach satisfies 99.1% of all data transfer needs, and all of the highest priority data transfers were satisfactorily made
Year
DOI
Venue
1990
10.1109/WSC.1990.129619
Winter Simulation Conference
Keywords
Field
DocType
CAD/CAM,digital simulation,fault location,performance evaluation,real-time systems,token networks,CIM token ring network,analysis system,channel assignment,computer-integrated manufacturing,critical resources,data transfer needs,distributed system architecture,intelligent interface,prioritization,real-time data,real-time fault detection,uncertain information
Data transmission,Real-time data,Computer science,Intelligent sensor,Simulation,Fault detection and isolation,Token ring,Computer-integrated manufacturing,Communication channel,Real-time computing,Open system (systems theory),Distributed computing
Conference
ISBN
Citations 
PageRank 
978-0-911801-72-9
0
0.34
References 
Authors
3
2
Name
Order
Citations
PageRank
Mark D. Pardue100.34
James D. Palmer25314.93