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Proceedings Paper

Performance evaluation of a picture archiving and communication system using stochastic activity networks
Author(s): Ralph Martinez; William H. Sanders; Yasser H. Alsafadi; Jiseung Nam; Takeshi Ozeki; Ken-Ichi Komatsu
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Paper Abstract

The concept of picture archiving and communication systems (PACS) is now widely accepted in the medical community. In order to bring the concept to reality, however, innovative designs and implementations are needed. One such design is a fiber optic star based PACS, conceived by the University of Arizona and Toshiba corporation. This PACS network is based on a multiplexed passive star local area network with wavelength-division multiplexing to provide separate logical channels for transfer of control and image data. The system consists of an Image-Network (INET), for image transfer at a rate of 140 Mbps, and a Control-network (CNET), operating at 10 Mbps, for mediating the flow of image transfers. INET is a circuit switched network where a network supervisor grants users permission to transfer images over it, while CNET employs the CSMA/CD protocol for bus arbitration. Before such a system can be deployed, an accurate evaluation study must be carried out to estimate its performance characteristics. Such evaluations are complicated both by the complexity of the PACS itself and the varied demands that are placed on such a system. An novel approach based on siochastic aciiviiy neiworks, a stochastic extension of Petri nets, is useful in this regard. Stochastic activity networks were used to develop a detailed model of the command and image channels. The performance of the system was then evaluated under realistic workload conditions. In particular, we were able to estimate a number of important performance variables including the image response time, command channel delay, and queue length each type of node and the network supervisor. The results 1) show that stochastic activity networks are an appropriate model type for evaluating picture archiving and communication systems, 2) delineate the workload conditions under which PACS may effectively operate, and 3) show that even when these conditions are exceeded, the command channel load remains extremely light. Results of this type are useful both to designers of other PACS networks and those interested in this particular PACS design.

Paper Details

Date Published: 1 August 1990
PDF: 12 pages
Proc. SPIE 1234, Medical Imaging IV: PACS Systems Design and Evaluation, (1 August 1990); doi: 10.1117/12.18994
Show Author Affiliations
Ralph Martinez, Univ. of Arizona (United States)
William H. Sanders, Univ. of Arizona (United States)
Yasser H. Alsafadi, Univ. of Arizona (United States)
Jiseung Nam, Univ. of Arizona (United States)
Takeshi Ozeki, Toshiba Corp. (Japan)
Ken-Ichi Komatsu, Toshiba Corp. (Japan)

Published in SPIE Proceedings Vol. 1234:
Medical Imaging IV: PACS Systems Design and Evaluation
Samuel J. Dwyer; R. Gilbert Jost, Editor(s)

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