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Philippos Assimakopoulos
Also published under:P. Assimakopoulos
Affiliation
Division of Computing, Engineering and Mathematical Sciences, University of Kent, Canterbury, U.K
Topic
Optical Amplifier,Orthogonal Frequency Division Multiplexing,Central Unit,Deep Reinforcement Learning,Deep Reinforcement Learning Agent,Digital Signal Processing,Error Vector Magnitude,Optical Link,Optical Power,Remote Unit,5G Fronthaul,Achievable Rate,Aggregator Node,Arbitrary Waveform Generator,Autoregressive Integrated Moving Average,Average Bit,Bandwidth Efficiency,Baseline Case,Beamforming,Bitrate,Buffer Size,Catastrophic Forgetting,Channel Estimation,Combination Of Techniques,Control Agents,Data Rate,Deep Q-learning,Detection Module,Digital Circuits,Distributed Unit,Dynamic Range,Electrical Amplifier,Energy Conservation,Frequency Domain,Frequency-domain Techniques,Group Of 4,High-power Laser,Individual Channels,Intensity Modulation,Inter-arrival Time,Laser Source,Latency Constraints,Low Latency,Mach-Zehnder Interferometer,Mach-Zehnder Modulator,Mobile Fronthaul,Mobile Users,Model Of Latency,Multiplex Technique,Noise Figure,
Biography
Philippos Assimakopoulos (S’09–M’16) received the B.Eng. degree in electronic engineering from the University of Bath, Bath, U.K., in 2003, the M.Sc. degree in broadband and mobile communication networks from the University of Kent, Canterbury, U.K., in 2007, and the Ph.D. degree in electronic engineering from the University of Kent, Canterbury, U.K., in 2012.
He is currently with the Communications Research Group, University of Kent. He has participated in various EU FP7, Horizon 2020, and UK EPSRC research projects. His research interests include distributed antenna systems and low-cost microwave radio-over-fiber networks for indoor and outdoor applications and the design of cloud-radio access network for 4G and 5G applications.
He is currently with the Communications Research Group, University of Kent. He has participated in various EU FP7, Horizon 2020, and UK EPSRC research projects. His research interests include distributed antenna systems and low-cost microwave radio-over-fiber networks for indoor and outdoor applications and the design of cloud-radio access network for 4G and 5G applications.