2012 - IEEE Fellow For contributions to cross-layer resource allocation algorithms for wireless, satellite, and optical networks
Eytan Modiano focuses on Computer network, Wireless network, Network packet, Distributed computing and Scheduling. He usually deals with Computer network and limits it to topics linked to Channel allocation schemes and Nash equilibrium. His work carried out in the field of Wireless network brings together such families of science as Distributed algorithm, Wireless ad hoc network, End-to-end delay and Maximum throughput scheduling.
His Network packet research incorporates elements of Wireless, Communication channel, Queueing theory, Mathematical optimization and Queue. Eytan Modiano has researched Distributed computing in several fields, including Routing table, Equal-cost multi-path routing, Routing domain, Backbone network and Flow control. His research integrates issues of Algorithm, Algorithm design and Throughput in his study of Scheduling.
Computer network, Distributed computing, Scheduling, Wireless network and Network packet are his primary areas of study. Much of his study explores Computer network relationship to Throughput. His work in Distributed computing addresses subjects such as Approximation algorithm, which are connected to disciplines such as Mobile computing.
His biological study spans a wide range of topics, including Queue, Real-time computing and Mathematical optimization. His research in Wireless network intersects with topics in Distributed algorithm, Wireless ad hoc network and Maximum throughput scheduling. His studies in Network packet integrate themes in fields like Multicast, Algorithm and Spanning tree.
His main research concerns Wireless network, Computer network, Scheduling, Network packet and Mathematical optimization. His Wireless network research is multidisciplinary, incorporating perspectives in Directional antenna, Queue and Communication channel. Computer network is closely attributed to Throughput in his study.
His study in Scheduling is interdisciplinary in nature, drawing from both Distributed computing, Base station and Topology. The various areas that Eytan Modiano examines in his Network packet study include Dissemination, Queueing theory, Optimal control and Spanning tree. His study in the field of Minification also crosses realms of Adversarial system, Reinforcement learning and Markov decision process.
Eytan Modiano mainly focuses on Scheduling, Wireless network, Network packet, Computer network and Information Age. In his research, Metric is intimately related to Mathematical optimization, which falls under the overarching field of Scheduling. His Wireless network study integrates concerns from other disciplines, such as State, Throughput and Communication channel.
His Network packet research is multidisciplinary, incorporating elements of Queue, Queueing theory and Spanning tree. His Computer network research includes elements of Distributed computing and Vehicular ad hoc network. In his study, which falls under the umbrella issue of Distributed computing, Simulated annealing, Linear programming and Survivability is strongly linked to Telecommunications network.
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Dynamic power allocation and routing for time varying wireless networks
M.J. Neely;E. Modiano;C.E. Rohrs.
international conference on computer communications (2003)
Fairness and optimal stochastic control for heterogeneous networks
Michael J. Neely;Eytan Modiano;Chih-Ping Li.
IEEE ACM Transactions on Networking (2008)
Capacity and delay tradeoffs for ad hoc mobile networks
M.J. Neely;E. Modiano.
IEEE Transactions on Information Theory (2005)
Traffic grooming algorithms for reducing electronic multiplexing costs in WDM ring networks
A.L. Chiu;E.H. Modiano.
Journal of Lightwave Technology (2000)
Traffic grooming in WDM networks
IEEE Communications Magazine (2001)
Maximizing throughput in wireless networks via gossiping
Eytan Modiano;Devavrat Shah;Gil Zussman.
measurement and modeling of computer systems (2006)
Minimum energy disjoint path routing in wireless ad-hoc networks
Anand Srinivas;Eytan Modiano.
acm/ieee international conference on mobile computing and networking (2003)
Power allocation and routing in multibeam satellites with time-varying channels
Michael J. Neely;Eytan Modiano;Charles E. Rohrs.
IEEE ACM Transactions on Networking (2003)
Survivable lightpath routing: a new approach to the design of WDM-based networks
E. Modiano;A. Narula-Tam.
IEEE Journal on Selected Areas in Communications (2002)
Cooperative Routing in Static Wireless Networks
A.E. Khandani;J. Abounadi;E. Modiano;Lizhong Zheng.
IEEE Transactions on Communications (2007)
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