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Biswanath Mukherjee
Researcher at University of California, Davis
Publications - 757
Citations - 44389
Biswanath Mukherjee is an academic researcher from University of California, Davis. The author has contributed to research in topics: Network topology & Network packet. The author has an hindex of 88, co-authored 742 publications receiving 42715 citations. Previous affiliations of Biswanath Mukherjee include University of California, Berkeley & Hewlett-Packard.
Papers
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Proceedings ArticleDOI
Traffic Grooming and Delay Constrained Multicast Routing in IP over WDM Networks
TL;DR: This paper applies Lagrangean relaxation technique to perform constraint relaxation and proposes optimization-based heuristics (LGR) to tackle delay constrained multicast routing for supporting QoS guaranteed point to multi-point communications in IP over WDM networks.
Journal ArticleDOI
A Novel SLA Framework for Time-Differentiated Resilience in Optical Mesh Networks
TL;DR: This study shows that, by applying a novel SLA framework, resource efficiency can be significantly improved, CWs are effectively protected with high resilience, the availability of CWs can be increased almost linearly with used backup resources, and the framework requires low operational complexity.
Proceedings Article
Routing and Wavelength Assignment with Quality-Of-Signal Constraints in WDM Networks
TL;DR: Algorithms for routing and wavelength assignment with signal-quality constraint are investigated and the call-blocking probability is significantly improved in an optical WDM network if information on transmission impairments is incorporated in the RWA.
Proceedings ArticleDOI
Robust upgrade in optical networks under traffic uncertainty
TL;DR: The robust optimization paradigm is applied to incorporate uncertainty in the forecasts to incorporate this uncertainty into the network upgrade problem and can dimension the network by tuning the tradeoff between network cost and robustness level.
Journal ArticleDOI
Elimination of all-optical cycles in wavelength-routed optical networks
TL;DR: In this paper, the authors examine algorithms that set up new transparent optical connections upon request while avoiding the creation of unintended all-optical cycles in the network (viz., a loop with no terminating electronics in it).