Wide area traffic: the failure of Poisson modeling
IEEE/ACM Transactions on Networking (TON)
On burstiness of self-similar traffic models
NOC '96 Proceedings of the European conference on Networks & optical communications II : ATM, networks and LANs: ATM, networks and LANs
Self-similarity in World Wide Web traffic: evidence and possible causes
IEEE/ACM Transactions on Networking (TON)
Virtual path control for ATM networks with call level quality of service guarantees
IEEE/ACM Transactions on Networking (TON)
DIVA: a distributed & dynamic VP management algorithm
Proceedings of the fifth IFIP/IEEE international symposium on Integrated network management V : integrated management in a virtual world: integrated management in a virtual world
Stochastic allocation of virtual paths to ATM links
Proceedings of the Second IFIP Workshop on Performance Modelling and Evaluation of ATM Networks: ATM Networks, Performance Modelling and Analysis, Volume 1
High level B-ISDN/ATM traffic management in real time
Proceedings of the Second IFIP Workshop on Performance Modelling and Evaluation of ATM Networks: ATM Networks, Performance Modelling and Analysis, Volume 1
Dynamic resource allocation in ATM networks
IEEE Communications Magazine
Broadband ISDN resource management: the role of virtual paths
IEEE Communications Magazine
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The concept of Virtual Paths (VP) is a powerful technique to improve the transmission efficiency in ATM networks. Transmission efficiency can be improved by dynamically changing the bandwidths of the VPs, based on the demand. Intelligent controllers, which predict bandwidth-demand patterns to enable better VP management, have the potential to revolutionize ATM network performance. We present a scheme based on the Evolutionary Genetic Approach to predict the bandwidth-demand patterns in VPs. The efficiency of this approach, quantified in terms of the Degree of Learning (DoL), is evaluated through simulation and the results are presented.