His scientific interests lie mostly in Computer network, Game theory, Wireless network, Distributed algorithm and Computer security. His research in Computer network tackles topics such as Secrecy which are related to areas like Secure transmission. His work deals with themes such as Network partition, Stability, Stochastic game, Telecommunications network and Cognitive radio, which intersect with Game theory.
His Wireless network research entails a greater understanding of Wireless. His Distributed computing research includes themes of MIMO and Base station. His Relay research incorporates themes from Telecommunications and Phase-shift keying.
His primary areas of study are Computer network, MIMO, Wireless network, Communication channel and Algorithm. His study in Computer network is interdisciplinary in nature, drawing from both Wireless, Distributed computing, Relay, Secrecy and Game theory. Within one scientific family, he focuses on topics pertaining to Stochastic game under Game theory, and may sometimes address concerns connected to Network packet.
His Wireless network research incorporates elements of Distributed algorithm, Overhead, Throughput and Spectral efficiency. His biological study spans a wide range of topics, including Transmission and Telecommunications link. His work focuses on many connections between Algorithm and other disciplines, such as Phase-shift keying, that overlap with his field of interest in Quadrature amplitude modulation.
Are Hjorungnes mainly investigates Relay, Algorithm, Electronic engineering, Transmission and Communication channel. His research in Algorithm intersects with topics in MIMO and Estimator. Are Hjorungnes has researched Transmission in several fields, including Network partition, Computer network, Data transmission and Channel state information.
His study in the fields of Node under the domain of Computer network overlaps with other disciplines such as Block. His Data transmission study combines topics from a wide range of disciplines, such as Cognitive radio, Simulation, Game theory and Precoding. His Communication channel study integrates concerns from other disciplines, such as Computer security, Eavesdropping, Physical layer, Transmitter and Telecommunications link.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Coalitional game theory for communication networks
W. Saad;Zhu Han;M. Debbah;A. Hjorungnes.
Coalitional Game Theory for Communication Networks: A Tutorial
Walid Saad;Zhu Han;Merouane Debbah;Are Hjørungnes.
Complex-Valued Matrix Differentiation: Techniques and Key Results
A. Hjorungnes;D. Gesbert.
IEEE Transactions on Signal Processing (2007)
Rethinking the Secrecy Outage Formulation: A Secure Transmission Design Perspective
Xiangyun Zhou;M R McKay;B Maham;A Hjørungnes.
IEEE Communications Letters (2011)
Coalitional Games for Distributed Collaborative Spectrum Sensing in Cognitive Radio Networks
W. Saad;Z. Han;M. Debbah;A. Hjorungnes.
Pilot Contamination for Active Eavesdropping
Xiangyun Zhou;B. Maham;A. Hjorungnes.
IEEE Transactions on Wireless Communications (2012)
On the Throughput Cost of Physical Layer Security in Decentralized Wireless Networks
X. Zhou;R. K. Ganti;J. G. Andrews;A. Hjorungnes.
IEEE Transactions on Wireless Communications (2011)
A distributed coalition formation framework for fair user cooperation in wireless networks
W. Saad;Zhu Han;M. Debbah;A. Hjorungnes.
Coalition Formation Games for Distributed Cooperation Among Roadside Units in Vehicular Networks
W Saad;Zhu Han;Are Hjorungnes;D Niyato.
Physical layer security game: interaction between source, eavesdropper, and friendly jammer
Zhu Han;Ninoslav Marina;Mérouane Debbah;Are Hjørungnes.
Eurasip Journal on Wireless Communications and Networking (2009)
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