Boi FaltingsProfessor Faltings joined EPFL in 1987 as professor of Artificial Intelligence. He holds a PhD degree from the University of Illinois at Urbana-Champaign, and a diploma from the ETHZ. His research has spanned different areas of intelligent systems linked to model-based reasoning. In particular, he has contributed to qualitative spatial reasoning, case-based reasoning (especially for design problems), constraint satisfaction for design and logistics problems, multi-agent systems, and intelligent user interfaces. His current work is oriented towards multi-agent systems and social computing, using concepts of game theory, constraint optimization and machine learning. In 1999, Professor Faltings co-founded Iconomic Systems, a company that developed a new agent-based paradigm for travel e-commerce. He has since co-founded 5 other startup companies and advised several others. Prof. Faltings has published more than 150 refereed papers on his work, and participates regularly in program committees of all major conferences in the field. He has served as associate editor of of the major journals, including the Journal of Artificial Intelligence Research (JAIR) and the Artificial Intelligence Journal. From 1996 to 1998, he served as head of the computer science department.
Eugen Brühwilerbirth date: 19.11.1958 nationality: Swiss (native from Dussnang, Canton of Thurgau) Education : - July 1988 : doctoral degree from the Swiss Federal Institute of Technology in Lausanne (EPFL), Switzerland with a thesis entitled Fracture mechanics of dam concrete subjected to quasi-static and seismic loading conditions - December 1983 : civil engineering diploma (university degree) from the Swiss Federal Institute of Technology (ETH) in Zurich, Switzerland Professional Experience : - Since 1st April 1995 : Professor of Structural Engineering at EPFL and Head of the Laboratory of Maintenance, Construction and Safety for Civil Structures (MCS) (often considered being the first chair worldwide devoted exclusively to existing civil structures). - 1991-94 Project Manager and structural engineer with the Swiss Federal Railways (SBB), Division of Bridges and Structures, Zurich: Monitoring and maintenance of bridges and structures, Project manager and checking engineer for the construction of new bridges and rehabilitation of existing bridges. - 1989/90 Research associate at the Department of Civil Engineering, University of Colorado, Boulder, USA : Fracture mechanics of concrete and fracture of concrete dams. - 1986-88 Doctoral student at EPFL-LMC (Building Materials, Prof. Wittmann) : Fracture mechanics of concrete, fracture of concrete dams under seismic loading - 1984/85 Research engineer at EPFL-ICOM (Steel Structures, Prof. Badoux and Prof. Hirt) : Fatigue behaviour and fracture mechanics of riveted bridges
Eric MeurvilleEric Meurville holds a Masters Degree in Electrical Engineering and Digital Signal Processing from the Conservatoire National des Arts & Métiers Paris, France. Since 1999, he has been working as head of the Product Design Group at the Laboratoire de Production Microtechnique of the EPFL and is responsible for advanced research projects in the field of wearable and implantable biomedical devices and in the design of innovative biosensors. During the last 9 years, he has been particularly active in bringing long-term implantable medical devices concepts to commercial realization. From 1995 to 1999 at the Institute of Microtechnology of the University of Neuchâtel, Switzerland, his main field of research was multi-modal biometric access control systems. He was also Project Manager at the "Laboratoire d'Etude des Transmissions Ionosphériques" (LETTI), France, from 1992 to 1995 in the field of over the horizon radars. As software and hardware developer of airborne electronic warfare subsystems, he spent 6 years at Thalès (formerly Dassault Electronics), France, from 1986 to 1992.
In 2011, he co-founds gymetrics. The companys primary aim is to bring to market easy to use, non-invasive cell culture monitoring systems. This will enable improved yields and better understanding of the impact of the cell culture environment changes on cell growth.
