A Token-Passing Variable Buffer Model For A Double-Layered Hierarchical WDM All-Optical Network
Main Article Content
Abstract
Presents a hierarchical all-optical network, employing wavelength division multiplexing for multiple channel transmission. A double-layered network with multiple sub-network implementation which provides for spatial wavelength reuse is considered. The piggybacked tokenpassing medium access protocol as a fair and noncontentious access scheme is studied for performance. The average delay in getting access to the network medium is determined from the semi-Markov process. The performance of the protocol model design with variable buffer sizes of the transmitter is analysed. It is shown from the double-layered hierarchical network that alternative route for data transmission can be implemented to improve on performance.
Downloads
Download data is not yet available.
Article Details
How to Cite
Tee, E. R., Ramani, A., & Selvakennedy, S. (1997). A Token-Passing Variable Buffer Model For A Double-Layered Hierarchical WDM All-Optical Network. Malaysian Journal of Computer Science, 11(1), 41–50. Retrieved from https://mojem.um.edu.my/index.php/MJCS/article/view/3215
Section
Articles