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Mark A. Beach
Also published under:Mark Beach, M. A. Beach, M. Beach, Mark M. Beach, Mark E. Beach
Affiliation
CSN Group, University of Bristol, Bristol, UK
Topic
Convolutional Neural Network,Neural Network,User Equipment,Convolutional Layers,Electromagnetic Simulation,Power Amplifier,Radiofrequency,Received Signal Strength Indicator,Reconfigurable Intelligent Surface,Activation Function,Artificial Neural Network,Beam Reflectance,Beampattern,Design Space,Gallium Nitride,Internet Of Things,Multilayer Perceptron,Output Power,Path Loss,Peak-to-average Power Ratio,Phase Shift,Physical Layer,Probability Density Function,Reflection Profiles,Training Data,Advanced Design System,Amount Of Training Data,Base Station,Bias Voltage,Channel Model,Circuit Design,Co-channel Interference,Convolutional Neural Network Architecture,Convolutional Neural Network Model,Critical Infrastructure,Deep Learning,Deep Neural Network,Deep Q-network,Deep Reinforcement Learning,Degrees Of Freedom,Design Process,Doherty Power Amplifier,Empirical Data,Error Vector Magnitude,Feature Clustering,Frequency Division Duplex,Gate Bias,Graph Neural Networks,High Electron Mobility Transistors,Input Signal,
Biography
Mark Beach (M’10) received the Ph.D. degree for research addressing the application of Smart Antenna techniques to GPS from the University of Bristol, U.K., in 1989. He subsequently joined as a member of Academic Staff the University of Bristol. He was promoted to a Senior Lecturer in 1996, a Reader in 1998, and a Professor in 2003. He was Head of the Department of Electrical and Electronic Engineering from 2006 to 2010 and spearheaded Bristol’s hosting of the EPSRC Center for Doctoral Training (CDT) in communications. He currently manages the delivery of the CDT in communications, leads research in the field of enabling technologies for the delivery of 5G and beyond wireless connectivity, and is the School Research Impact Director. His current research activities are delivered through the Communication Systems and Networks Group, forming a key component within the Bristol’s Smart Internet Laboratory. He has over 25 years of physical layer wireless research embracing the application of spread spectrum technology for cellular systems, adaptive or smart antenna for capacity and range extension in wireless networks, MIMO aided connectivity for through-put enhancement, millimeter wave technologies and flexible RF technologies for SDR modems underpins his current research portfolio.