Bernd Hamann, Ph.D. (Dr. rer. nat.)
Dr. Bernd Hamann is a full professor in the Department of Computer Science at the University of California, Davis (UC Davis) [Department of Computer Science]. He was appointed by UC Davis in 1995. From 1991 to 1995, he was an assistant and associate professor in the Department of Computer Science and Engineering at Mississippi State University [Department of Computer Science and Engineering], where he was also associated with the NSF Engineering Research Center for Computational Field Simulation, now called High Performance Computing Collaboratory (HPC2) [High Performance Computing Collaboratory]. When he joined UC Davis in 1995, he obtained adjunct professor status at Mississippi State University.
At UC Davis, Bernd Hamann has had affiliations with several graduate education and training programs, including the Graduate Group of Computer Science, Graduate Group of Applied Mathematics and Graduate Program in Health Informatics. He held a University of California Presidential Chair in Undergraduate Education, allowing him to develop research opportunities for undergraduate students focusing on visualization research driven by geological data analysis needs (2006-2010). As co-director and lead principal investigator on the U.S. side, he has been co-leading the first Germany-U.S. International Research Training Group (IRTG), a Ph.D. student training effort funded by the German Research Foundation (DFG) for nine years (2005-2013). This effort's title is Visualization of Large and Unstructured Data Sets. The IRTG involves the University of Kaiserslautern, Germany (overall German lead institution), University of California, Davis (U.S. lead institution), Arizona State University and The University of Utah (U.S. partner institutions) [International Research Training Group].
From 1997 to 2004, Bernd Hamann served as co-director of the UC Davis Center for Image Processing and Integrated Computing (CIPIC), now called Institute for Data Analysis and Visualization (IDAV) [Institute for Data Analysis and Visualization]. He is currently an affiliated faculty member of IDAV and an affiliated lead scientist of another large interdisciplinary center at UC Davis, the W.M. Keck Foundation Center for Active Visualization in the Earth Sciences (KeckCAVES) [W.M. Keck Foundation Center for Active Visualization in the Earth Sciences]. He has long-standing collaborative relationships with several research groups at U.S. national laboratories, including groups from the Center for Applied Scientific Computing (CASC) at Lawrence Livermore National Laboratory [Center for Applied Scientific Computing] and the Computational Research Division (CRD) at Lawrence Berkeley National Laboratory [Computational Research Division]. At these two national laboratories he has held the positions of Participating Guest Researcher and Faculty Computer Scientist, respectively. In addition, he has been a UC Davis key participating investigator and original co-leader of the Human-centered Computing thrust of the UC Berkeley-led Center for Information Technology Research in the Interest of Society (CITRIS) [Center for Information Technology Research in the Interest of Society].
Further, Bernd Hamann has served as Associate Vice Chancellor for Research at UC Davis, with the following main areas of responsibility: (1) providing leadership for campus-wide interdisciplinary research efforts; (2) overseeing research units reporting to the Office of Research; (3) handling appointments and performance evaluations of Academic Senate/Federation members and professional research staff with appointments in research units reporting to the Office of Research; (4) advising and working with faculty interested in pursuing proposals for research units/programs or other faculty-initiated large research efforts; and (5) coordinating, jointly with the Vice Chancellor for Research and the Associate Deans for Research, the review of complex pre-proposals for Limited Submissions programs, i.e., programs where a university can submit only a limited number of proposals to a sponsor. (In fiscal year 2010/11, considering all sources, the total amount of funds available to all research units reporting to the Office of Research was approximately $125M, and these units' combined expenditure amount was approximately $120M. Since 2008/09, UC Davis has received consistently over $600M extramural funding per year.) [Office of Research]
In 2005, Bernd Hamann co-founded Stratovan Corporation, a company specializing in interactive data visualization software development [Stratovan Corporation]. He serves as a director for Stratovan.
Bernd Hamann's main research and teaching interests are visualization, geometric modeling (computer-aided geometric design), computer graphics, and immersive visualization environments. Visualization is concerned with the development of techniques that transform data into meaningful computer-generated images. Applications of visualization technology include the analysis of data generated in computational fluid dynamics (CFD), computational and molecular biology, medical/biomedical imaging, or physics and hydrodynamics simulation. Geometric modeling is primarily addressing the representation and manipulation of curves and surfaces, with major applications in automotive, aircraft and general product design. Computer graphics focuses on methods needed for producing realistic computer-generated images of three-dimensional objects and dynamic scenes, with applications in the computer animation and computer games industry. Immersive visualization is an emerging and increasingly important technology that allows engineers and scientists to interact with massive data sets in three-dimensional visualization environments. This technology supports stereoscopic rendering for virtual design and data analysis applications. Hierarchical data representation methods and effective data visualization technology are at the core of Bernd Hamann's own research interests.
He is the author, co-author, or co-editor of over 400 publications. He has given invited presentations at premier conferences, universities and research laboratories worldwide, He was a member of the editorial board of the IEEE Transactions on Visualization and Computer Graphics from 1999 until 2003, and served as a papers co-chair and proceedings co-editor for the IEEE Visualization conferences in 1999 and 2000. In addition, he has served as a co-editor of books focusing on basic visualization science and the application of state-of-the-art visualization methods in diverse application areas. Springer-Verlag has published several books co-edited by Bernd Hamann in its Mathematics and Visualization series.
Bernd Hamann received a 1992 Research Initiation Award by Mississippi State University, a 1992 Research Initiation Award by the National Science Foundation, and a 1996 CAREER Award by the National Science Foundation. In 1995, he was awarded a Hearin-Hess Distinguished Professorship in Engineering by the College of Engineering, Mississippi State University. He was offered an endowed Tier-1 Canadian Research Chair (CRC) in 2001 and an endowed LexisNexis/Ohio Eminent Scholar professorship in 2005.
The University of Nevada, Las Vegas, extended an offer for the position of Vice President for Research and Dean of the Graduate College to Bernd Hamann in 2007. In 2010, Bernd Hamann was a finalist for the position of Rector of the University of Leipzig, Germany.
Bernd Hamann received a B.S. in computer science, a B.S. in mathematics, and an M.S. in computer science from the Technical University of Braunschweig, Germany. He received his Ph.D. in computer science from Arizona State University in 1991. He is a member of the Association for Computing Machinery (ACM), the Institute of Electrical and Electronics Engineers (IEEE), the Society for Industrial and Applied Mathematics (SIAM), and the IEEE Technical Committee on Visualization and Graphics (TCVG).
Richard P. Feynman on the Qualitative Content of Equations (1964)
What is the purpose of visualization? Former Caltech physicist and 1965 Nobel laureate Richard P. Feynman wrote in his Lectures on Physics: "The next great era of awakening of human intellect may well produce a method of understanding the qualitative content of equations. Today we cannot. Today we cannot see that the water flow equations contain such things as the barber pole structure of turbulence that one sees between rotating cylinders. Today we cannot see whether Schroedinger's equation contains frogs, musical composers, or morality - or whether it does not." [R.P. Feynman, R.B. Leighton and M. Sands, The Feynman Lectures on Physics, Vol. II, Addison-Wesley, Reading, Massachusetts, p. 41-12, 1964] These thoughts are closely related to one main purpose of visualization, namely to provide insight into the qualitative nature of complicated phenomena, and therefore into the equations used to model and simulate these phenomena.