Numerical analysis of queues with batch arrivals
Performance Evaluation - Special issue: ATM networks: Performance modelling and analysis
Mission Time Analysis of Large Dependable Systems
IPDS '00 Proceedings of the 4th International Computer Performance and Dependability Symposium
A Markovian approach for modeling packet traffic with long-range dependence
IEEE Journal on Selected Areas in Communications
Performance evaluation of multi-service UMTS core networks with clustering and neural modelling
International Journal of Mobile Network Design and Innovation
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This paper is devoted to neural modelling and performance analysis of the link occupancy distribution for wireless broadband transmission. Multiclass models of a single link transmission for rigid, adaptive and elastic traffic are developed, based on Markov rewards models. The link occupancy distribution is introduced as embedded, discrete time Markov chains researched with the use of Vector Quantification (VQ). Link occupancy performance is simulated as a combination of single queues with random distributions of arrival processes and holding time service phases. The density of occupancy probability is determined using Learning Vector Quantification (LVQ) in a two-layered neural structure.