2020 - IEEE Fellow For contributions to resource allocation in wireless interference networks
Eduard A. Jorswieck focuses on Mathematical optimization, MIMO, Communication channel, Channel state information and Transmitter. His Mathematical optimization research incorporates themes from Resource allocation, Boundary and Efficient energy use. Eduard A. Jorswieck usually deals with MIMO and limits it to topics linked to Transmission and Electronic engineering.
The Communication channel study which covers Beamforming that intersects with Pareto analysis. His Channel state information research integrates issues from Relay channel, Control theory, Interference, Precoding and Topology. His Transmitter research is multidisciplinary, incorporating elements of Cognitive radio and Bit error rate.
Eduard A. Jorswieck mainly investigates Communication channel, Mathematical optimization, MIMO, Transmitter and Computer network. The study incorporates disciplines such as Transmission, Beamforming and Topology in addition to Communication channel. The concepts of his Mathematical optimization study are interwoven with issues in Resource allocation, Efficient energy use and Transmitter power output.
His MIMO research includes themes of Algorithm, Telecommunications link and Control theory. His Transmitter study combines topics in areas such as Cognitive radio, Upper and lower bounds and Electronic engineering. His research in Computer network intersects with topics in Wireless, Physical layer, Secrecy and Relay channel.
His scientific interests lie mostly in Communication channel, Efficient energy use, Optimization problem, Resource allocation and Mathematical optimization. His Communication channel research incorporates elements of Transmitter, Topology and Wireless. His research investigates the link between Wireless and topics such as Computer network that cross with problems in Physical layer, Precoding and Transmission.
The various areas that Eduard A. Jorswieck examines in his Efficient energy use study include Cellular network, Transmitter power output, Maximization, Power control and MIMO. His biological study spans a wide range of topics, including Spectral efficiency, Wireless network, Distributed computing and Quality of service. His Mathematical optimization research is multidisciplinary, incorporating perspectives in Computational complexity theory, Single antenna interference cancellation and Beamforming.
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Energy Efficiency in Wireless Networks via Fractional Programming Theory
Alessio Zappone;Eduard Jorswieck.
Optimal Resource Allocation in Coordinated Multi-Cell Systems
Emil Björnson;Eduard A. Jorswieck.
Complete Characterization of the Pareto Boundary for the MISO Interference Channel
E.A. Jorswieck;E.G. Larsson;D. Danev.
IEEE Transactions on Signal Processing (2008)
Framework for Link-Level Energy Efficiency Optimization with Informed Transmitter
Christian Isheden;Zhijiat Chong;Eduard Jorswieck;Gerhard Fettweis.
IEEE Transactions on Wireless Communications (2012)
Competition Versus Cooperation on the MISO Interference Channel
E. Larsson;E. Jorswieck.
IEEE Journal on Selected Areas in Communications (2008)
Channel capacity and capacity-range of beamforming in MIMO wireless systems under correlated fading with covariance feedback
E.A. Jorswieck;H. Boche.
IEEE Transactions on Wireless Communications (2004)
Performance of MIMO systems with channel inversion
T. Haustein;C. von Helmolt;E. Jorswieck;V. Jungnickel.
vehicular technology conference (2002)
Energy-Efficient Power Control: A Look at 5G Wireless Technologies
Alessio Zappone;Luca Sanguinetti;Giacomo Bacci;Eduard Jorswieck.
IEEE Transactions on Signal Processing (2016)
Secrecy Outage in MISO Systems With Partial Channel Information
S. Gerbracht;C. Scheunert;E. A. Jorswieck.
IEEE Transactions on Information Forensics and Security (2012)
Information and Energy Cooperation in Cognitive Radio Networks
Gan Zheng;Zuleita Ho;Eduard A. Jorswieck;Bjorn Ottersten.
IEEE Transactions on Signal Processing (2014)
Profile was last updated on December 6th, 2021.
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The ranking h-index is inferred from publications deemed to belong to the considered discipline.
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