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Professional Preparation

Diploma (M.S.-equivalent) Electrical Engineering, Oct. 1995

PhD., Electrical Engineering, Christian-Albrechts-University, Kiel, Germany, Dec. 2003,

Post-Doctoral Scholar, University of Kentucky, Dept. of Electrical and Computer Engineering, Aug. 2002-Aug. 2004

Appointments

Assistant Research Professor, Dept. of Electrical and Computer Engineering, University of Kentucky, Lexington, KY, USA (7/2008-present)

Research Engineer, Center for Visualization and Virtual Environments University of Kentucky, Lexington, KY, USA (10/2005-6/2008)

Research Scholar, Center for Visualization and Virtual Environments, University of Kentucky, Lexington, KY, USA (9/2004-9/2005)

Research Scholar, Dept. of Electrical and Computer Engineering, University of Kentucky, Lexington, KY, USA (8/2002-8/2004)

Research Assistant, Computational Electromagnetics Group, Dept. of Electrical Engineering, Christian- Albrechts-University of Kiel, Germany (9/1998-6/2002)

Research Assistant, Theoretical Electrical Engineering, Dept. of Electrical Engineering, Ruhr- University Bochum, Germany (11/1995-8/1998)

Relevant Publications

• Jens Hannemann, Kevin Donohue, and Hank Dietz. A cluster{based computing infrastructure for wide-area multi-modal surveillance networks. In Proceedings of the International Symposium on Circuits and Systems (ISCAS), pages 2070{2073. IEEE, May 2008.
• Jens Hannemann, Kevin Donohue, Michael Shaw, Charles Maynard, Danny Crasto, and Hank Dietz. Data and process flow architecture for the ambient virtual assistant (AVA). In 13th Annual Kentucky EPSCoR Conference: Building Team Science, Lexington, KY, October 2007.
• Jens Hannemann, Kevin Donohue, and Hank Dietz. A multi-threaded, distributed hard- and software architecture for audio signal processing. In 12th Annual Kentucky EPSCoR Conference: Exploring Shared Interests with National Labs, Louisville, KY, May 2006.
• Regina Hannemann, Jens Hannemann, Michael Zellerho, and Ludger Klinkenbusch. Scientic programming in eld theory, part I. Computing in Science and Engineering, 3(3):66-74, May/June 2001.
• Jens Hannemann, Regina Hannemann, Michael Zellerho, and Ludger Klinkenbusch. Scientic programming in eld theory, part II. Computing in Science and Engineering, 3(4):78- 85, July/August 2001.
• Jens Hannemann. Broadband multipole{matched rendering: The current state of aairs. In Proceedings of the 2009 Ambisonics Symposium, Graz, Austria, June 2009. Institut fur Eletronische Musik und Akustik, Universitat fur Musik und darstellende Kunst.
• Jens Hannemann, Christopher Leedy, Kevin Donohue, Sascha Spors, and Alexander Raake. A comparative study of the perceptional quality of wave eld synthesis versus multipole matching for audio rendering. In Proceedings of the International Conference on Acoustics, Speech, and Signal Processing (ICASSP), pages 397-400. IEEE, April 2008.
• Jens Hannemann and Christopher Leedy. A monte{carlo study on the convergence of multipole-matched audio rendering. In Proceedings of the IEEE SoutheastCon 2008, pages 507-510. IEEE, May 2008.
• Jens Hannemann and Kevin Donohue. Virtual sound source rendering using a multipole{expansion and method-of-moments approach. Journal of the Audio Engineering Society, 56(6):473-481, June 2008.
• Kevin Donohue, Jens Hannemann, and Hank Dietz. Performance of phase transform for detecting sound sources with microphone arrays in reverberant and noisy environments. Signal Processing, 87(7):1677-1691, July 2007.