Signal Processing for Communications MIMO Wireless Communications
Biography
Jonathon Chambers is an expert in adaptive and blind signal processing and their applications in biomedicine and communications. He has been working in these fields for more than 20 years and has co-authored two research monographs, one in nonlinear adaptive signal processing and a second in EEG signal processing, both of which appeared with the academic publisher Wiley, in 2001 and 2007 respectively. He has also published more than 300 conference and journal works, and steered approaching 50 researchers to PhD graduation.
Jonathon has held senior academic positions at Cardiff University, Imperial College, and King's College London, and was delighted to join the Department of Electronic and Electrical Engineering at Loughborough University in July 2007. He is a member of the EPSRC Peer Review College 2010.
Jonathon has served as an Associate Editor for IEEE journals, including IEEE Trans. Signal Processing, for more than ten years and as an elected member of the IEEE Technical Committee on Signal Processing Theory and Methods and the IEEE Signal Processing Society Awards Board. He was the Technical Programme Chair for the IEEE Workshop on Statistical Signal Processing, Cardiff, held for the first time in the U.K. in 2009. He is also the Co-Technical Programme Chair for the IEEE flagship conference in Signal Processing, ICASSP, to be held in Prague, 2011.
Jonathon was awarded the first QinetiQ Visiting Fellowship in 2007 "for his outstanding contributions to adaptive signal processing and his contributions to QinetiQ" as a result of his successful collaboration with the signal processing team at Malvern. He is also a Guest Professor at Harbin Engineering University, China.
Jonathon was elevated to IEEE Fellow from 1 January 2011 with the citation "for contributions to adaptive signal processing and its applications".
Current major research interests: advanced signal processing for wireless communication systems and multimodal technologies (audio-visual) to support human interaction.
