Title :
A model-based fault-tolerant CSCW architecture. Application to biomedical signals visualization and processing
Author :
Bouillon, Yannick ; Wendling, Abrice
Author_Institution :
ATLANTIDE, Rennes, France
Abstract :
The paper describes a methodological approach that uses Petri nets (PNs) and Time Petri nets (TPNs) for modeling, analysis and behavior control of fault-tolerant computer supported synchronous cooperative work (CSSCW) architectures inside which a high level of interactivity between users is required. Modeling allows architectures to be formally studied under different functioning conditions (normal communications and deficient communications). Results show that the model is able to predict interlocking and state inconsistencies in the presence of errors. TPNs are used to extend PN models in order to detect communication errors and avoid subsequent dysfunctions. The approach is illustrated through the improvement of a recently presented collaborative application dedicated to biomedical signal visualization and analysis
Keywords :
Petri nets; data visualisation; fault tolerant computing; groupware; medical signal processing; temporal logic; CSSCW architectures; PN models; Petri nets; TPNs; Time Petri nets; behavior control; biomedical signal processing; biomedical signal visualization; collaborative application; communication errors; deficient communications; fault-tolerant computer supported synchronous cooperative work; functioning conditions; model based fault tolerant CSCW architecture; normal communications; state inconsistencies; user interactivity; Application software; Collaboration; Collaborative work; Communication system control; Computer architecture; Fault tolerance; Petri nets; Predictive models; Signal analysis; Visualization;
Conference_Titel :
Information Technology Applications in Biomedicine, 2000. Proceedings. 2000 IEEE EMBS International Conference on
Conference_Location :
Arlington, VA
Print_ISBN :
0-7803-6449-X
DOI :
10.1109/ITAB.2000.892420
