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A Fuzzy Channel Allocation Scheme For the WDM Hierarchical All-Optical Network

Tee, Elok Robert and Mohd. Yazid Mohd. Saman, and Ramani, A.K. and Prakash, V. (1998) A Fuzzy Channel Allocation Scheme For the WDM Hierarchical All-Optical Network. Malaysian Journal of Computer Science, 11 (2). pp. 61-67. ISSN 0127-9084

Full text not available from this repository.

Official URL: http://mjcs.fsktm.um.edu.my/detail.asp?AID=57

Affiliations

Universiti Putra Malaysia

Abstract

The fuzzy means of allocating WDM channels in a hierarchical all-optical network (AON) for the modified token medium access protocol is addressed. The goal is to minimise the average delay of local subnet and global bound traffic, and to maximise the number of nodes that can be supported by the network. This is achieved by allotting a minimum number of spatially-reuse channels to the subnets, which can accommodate a certain maximum number of nodes. Actually the minimum number of nodes that are sought for each subnet in terms of cost. By working out the maximum number of nodes for each subnet and the total subnets that can be supported, the optimum number of global channels and the overall total number of nodes for the entire network, can hence be determined. The packet generation rate and average delay in slot time are used to gauge the performance of the fuzzy channel allocation model.

Item Type:Journal
Additional Information:This note was added by the search_and_modify.pl script.
Keywords:Hierarchical, All-optical network (AON), Wavelength division multiplexing (WDM), Fuzzy control, WDM channel allocation, Modified token-passing protocol
Subjects:Q Science, Computer Science
ID Code:187

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