Information theoretic approach to traffic adaptive WDM networks
IEEE/ACM Transactions on Networking (TON)
Genetic algorithm for finding minimal cost light forest of multicast routing on WDM networks
Journal of Artificial Evolution and Applications - Regular issue
Achieving 100% throughput in reconfigurable optical networks
IEEE/ACM Transactions on Networking (TON)
Survivable IP network realization in IP-over-WDM networks under overlay model
Computer Communications
Genetic algorithm for finding minimal cost light-forest of multicast routing on WDM networks
Artificial Intelligence Review
Historical data learning based dynamic LSP routing for overlay IP over WDM networks
ICICS'09 Proceedings of the 7th international conference on Information, communications and signal processing
Capacity efficient shared protection and fast restoration scheme in self-configured optical networks
SelfMan'06 Proceedings of the Second IEEE international conference on Self-Managed Networks, Systems, and Services
Access control capable integrated network management system for TCP/IP networks
ICCSA'05 Proceedings of the 2005 international conference on Computational Science and Its Applications - Volume Part II
Multi-layer network recovery: avoiding traffic disruptions against fiber failures
ICCS'06 Proceedings of the 6th international conference on Computational Science - Volume Part IV
Forward-Looking WDM Network Reconfiguration with Per-Link Congestion Control
Journal of Network and Systems Management
Tree reconfiguration without lightpath interruption in WDM optical networks
International Journal of Internet Protocol Technology
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Given the ever increasing demand for network bandwidth, and the phenomenal advances in optical wavelength division multiplexing (WDM) networking technologies, a major component of the next generation Internet will be an Internet protocol (IP)-based optical WDM network. As IP over WDM networking technologies mature, a number of important architectural, management and control issues have surfaced. These issues need to be addressed before a true next generation optical Internet can emerge. We enumerate some of the key architectural, management and control issues and discuss corresponding approaches and advances made toward addressing these issues. We first review the different IP/WDM networking architectural models and their tradeoffs. We outline and discuss several management and control issues and corresponding approaches related to the configuration, fault, and performance management of IP over dynamic WDM networks. We present an analysis and supporting simulation results demonstrating the potential benefits of dynamic IP over WDM networks. We then discuss the issues related to IP/WDM traffic engineering in more detail, and present the approach taken in the NGI SuperNet Network Control and Management Project funded by DARPA. In particular, we motivate and present an innovative integrated traffic-engineering framework for reconfigurable IP/WDM networks. It builds on the strength of multiprotocol label switching for fine-grain IP load balancing, and on the strength of reconfigurable WDM networking for reducing the IP network's weighted-hop-distance, and for expanding the bottleneck bandwidth