Computer network, Efficient energy use, Wireless, Energy consumption and Wireless sensor network are his primary areas of study. Christos Verikoukis combines subjects such as Throughput and Heterogeneous network with his study of Computer network. His Efficient energy use study integrates concerns from other disciplines, such as Optimization problem and Smart grid.
He has included themes like Network performance and Access control in his Wireless study. His Energy consumption study incorporates themes from Real-time computing and Game theory. His research integrates issues of End-to-end principle, Key distribution in wireless sensor networks and Network packet in his study of Wireless sensor network.
His primary areas of investigation include Computer network, Efficient energy use, Quality of service, Wireless and Throughput. Christos Verikoukis combines subjects such as Energy consumption and Wireless network, Heterogeneous network with his study of Computer network. His work in Heterogeneous network tackles topics such as Backhaul which are related to areas like Core network.
His study looks at the intersection of Efficient energy use and topics like Linear network coding with Automatic repeat request and Relay. Christos Verikoukis works mostly in the field of Quality of service, limiting it down to topics relating to LTE Advanced and, in certain cases, Handover, as a part of the same area of interest. His Wireless study combines topics from a wide range of disciplines, such as Distributed computing, Wireless sensor network, Real-time computing and Communication channel.
His primary areas of study are Computer network, Cellular network, Quality of service, Wireless and Distributed computing. His work deals with themes such as Wireless network, Efficient energy use and Throughput, which intersect with Computer network. His studies in Efficient energy use integrate themes in fields like Mathematical optimization and Telecommunications link.
His Cellular network research is multidisciplinary, incorporating elements of Software-defined networking, Range, Base station and Mobile telephony. His biological study spans a wide range of topics, including Dynamic spectrum management, Core network and Heterogeneous network. Christos Verikoukis has researched Wireless in several fields, including Network packet, Wireless sensor network, Mobile edge computing, Access control and Wearable technology.
Christos Verikoukis spends much of his time researching Computer network, Cellular network, Wireless, Distributed computing and Quality of service. Christos Verikoukis has included themes like Efficient energy use, Throughput, Heterogeneous network and Mobile broadband in his Computer network study. The various areas that he examines in his Efficient energy use study include Communication channel, Linear network coding, Access control, Scheduling and Telecommunications link.
As a part of the same scientific study, Christos Verikoukis usually deals with the Cellular network, concentrating on Service and frequently concerns with Throughput and Key. His Distributed computing research is multidisciplinary, relying on both Wireless sensor network, Mobile telephony, Wireless network, Testbed and Edge computing. The Quality of service study combines topics in areas such as Dynamic spectrum management and Next-generation network.
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A Survey on Demand Response Programs in Smart Grids: Pricing Methods and Optimization Algorithms
John S. Vardakas;Nizar Zorba;Christos V. Verikoukis.
IEEE Communications Surveys and Tutorials (2015)
Mobility Management for Femtocells in LTE-Advanced: Key Aspects and Survey of Handover Decision Algorithms
Dionysis Xenakis;Nikos Passas;Lazaros Merakos;Christos Verikoukis.
IEEE Communications Surveys and Tutorials (2014)
Highly reliable energy-saving mac for wireless body sensor networks in healthcare systems
B. Otal;L. Alonso;C. Verikoukis.
IEEE Journal on Selected Areas in Communications (2009)
"Green" distance-aware base station sleeping algorithm in LTE-Advanced
Alexandra Bousia;Angelos Antonopoulos;Luis Alonso;Christos Verikoukis.
international conference on communications (2012)
A survey on M2M systems for mHealth: a wireless communications perspective
Elli Kartsakli;Aris S. Lalos;Angelos Antonopoulos;Stefano Tennina.
QoS-Aware Energy Management in Body Sensor Nodes Powered by Human Energy Harvesting
Ernesto Ibarra;Angelos Antonopoulos;Elli Kartsakli;Joel J. P. C. Rodrigues.
IEEE Sensors Journal (2016)
A Low-Complexity Method for Antenna Selection in Spatial Modulation Systems
Konstantinos Ntontin;Marco Di Renzo;Ana I. Perez-Neira;Christos Verikoukis.
IEEE Communications Letters (2013)
Persistent RCSMA: A MAC Protocol for a Distributed Cooperative ARQ Scheme in Wireless Networks
Jesus Alonso-Zarate;Elli Kartsakli;Christos V. Verikoukis;Luis Alonso.
EURASIP Journal on Advances in Signal Processing (2008)
Toward 5G: FiWi Enhanced LTE-A HetNets With Reliable Low-Latency Fiber Backhaul Sharing and WiFi Offloading
Hamzeh Beyranvand;Martin Levesque;Martin Maier;Jawad A. Salehi.
IEEE ACM Transactions on Networking (2017)
D2D-Aware Device Caching in mmWave-Cellular Networks
Nikolaos Giatsoglou;Konstantinos Ntontin;Elli Kartsakli;Angelos Antonopoulos.
IEEE Journal on Selected Areas in Communications (2017)
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