His scientific interests lie mostly in Computer network, Vehicular ad hoc network, Wireless ad hoc network, Wireless and Optimized Link State Routing Protocol. His Computer network research incorporates themes from Wireless network and Distributed computing. Ozan K. Tonguz has included themes like Overhead, Relay, Call blocking, Throughput and Heterogeneous network in his Distributed computing study.
His Vehicular ad hoc network research includes themes of Routing, Key, Mobile computing and Network packet. His Wireless ad hoc network research includes elements of Duration, Quality of service, Mobility model, Mobile ad hoc network and Network topology. His Ad hoc wireless distribution service research integrates issues from Wireless Routing Protocol and Adaptive quality of service multi-hop routing.
Computer network, Wireless ad hoc network, Vehicular ad hoc network, Wireless network and Distributed computing are his primary areas of study. His Computer network study incorporates themes from Wireless and Relay. The concepts of his Wireless ad hoc network study are interwoven with issues in Network performance, Mobile ad hoc network, Network packet, Physical layer and Mobility model.
Many of his studies on Vehicular ad hoc network apply to Broadcast radiation as well. His studies deal with areas such as Quality of service, Handover, Network topology and Packet switching as well as Wireless network. His study focuses on the intersection of Optimized Link State Routing Protocol and fields such as Wireless Routing Protocol with connections in the field of Dynamic Source Routing.
The scientist’s investigation covers issues in Real-time computing, Traffic congestion, Dedicated short-range communications, Electric power system and Wireless. The study incorporates disciplines such as Computer network and Transport engineering in addition to Dedicated short-range communications. Ozan K. Tonguz interconnects Intersection and Lead vehicle in the investigation of issues within Computer network.
When carried out as part of a general Wireless research project, his work on Bluetooth is frequently linked to work in Intersection and Internet of Things, therefore connecting diverse disciplines of study. His work deals with themes such as Static routing, Routing protocol, Vehicular ad hoc network, Destination-Sequenced Distance Vector routing and Zone Routing Protocol, which intersect with Distributed computing. His Vehicular ad hoc network study integrates concerns from other disciplines, such as Clustering coefficient, The Internet and Reachability.
Ozan K. Tonguz spends much of his time researching Traffic congestion, Real-time computing, Wireless, Control system and Intelligent transportation system. The Traffic congestion study combines topics in areas such as Intersection, Dedicated short-range communications, Detector and Reinforcement learning. He works mostly in the field of Dedicated short-range communications, limiting it down to topics relating to Mesh networking and, in certain cases, Electric power system and Distributed computing.
His Distributed computing research includes themes of Policy-based routing, Enhanced Interior Gateway Routing Protocol, Dynamic Source Routing and Convergence. While the research belongs to areas of Wireless, he spends his time largely on the problem of Signal strength, intersecting his research to questions surrounding Computer network. Destination-Sequenced Distance Vector routing, Static routing, Zone Routing Protocol, Interior gateway protocol and Optimized Link State Routing Protocol are among the areas of Computer network where Ozan K. Tonguz concentrates his study.
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Integrated cellular and ad hoc relaying systems: iCAR
Hongyi Wu;Chunming Qiao;S. De;O. Tonguz.
IEEE Journal on Selected Areas in Communications (2001)
Broadcast storm mitigation techniques in vehicular ad hoc networks
N. Wisitpongphan;O.K. Tonguz;J.S. Parikh;P. Mudalige.
IEEE Wireless Communications (2007)
Routing in Sparse Vehicular Ad Hoc Wireless Networks
N. Wisitpongphan;Fan Bai;P. Mudalige;V. Sadekar.
IEEE Journal on Selected Areas in Communications (2007)
Ad Hoc Wireless Networks
DV-CAST: A distributed vehicular broadcast protocol for vehicular ad hoc networks
Ozan K Tonguz;Nawaporn Wisitpongphan;Fan Bai.
IEEE Wireless Communications (2010)
Broadcasting in VANET
O. Tonguz;N. Wisitpongphan;F. Bai;P. Mudalige.
2007 Mobile Networking for Vehicular Environments (2007)
Impact of Vehicles as Obstacles in Vehicular Ad Hoc Networks
M Boban;T T V Vinhoza;M Ferreira;J Barros.
IEEE Journal on Selected Areas in Communications (2011)
On the Broadcast Storm Problem in Ad hoc Wireless Networks
Ozan K. Tonguz;Nawaporn Wisitpongphan;Jayendra S. Parikh;Fan Bai.
broadband communications, networks and systems (2006)
Experimental study on the impact of vehicular obstructions in VANETs
Rui Meireles;Mate Boban;Peter Steenkiste;Ozan Tonguz.
vehicular networking conference (2010)
Propagation model for the HVAC duct as a communication channel
P.V. Nikitin;D.D. Stancil;A.G. Cepni;O.K. Tonguz.
IEEE Transactions on Antennas and Propagation (2003)
Profile was last updated on December 6th, 2021.
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