Alaeddine El FawalSince June, 2010, Alaeddine is the Head of IT at EPFL Middle East. Previously, he was a senior researcher at EPFL (Ecole Polytechnique Fédérale de Lausanne) in Switzerland. He earned his PhD in communication systems in July 2009 from EPFL, where he worked with Prof. Jean-Yves Le Boudec. He received his DEA in networking in 2002 and his MSc degree in 2001, both from the Lebanese University. He carried out his DEA thesis in the Planète team, INRIA Sophia Antipolis France, and the master thesis at LCST (Laboratoire des Composants et des Systèmes de Télécommunications), INSA Rennes France.
Alexis BoegliDr Alexis Boegli holds a PhD from the University of Neuchâtel. Starting with a mechanical background, Alexis has a ten year experience in the design and implementation of analogue and digital electronic systems. Since 2001, he has focused on the design and implementation of RF systems. Alexis has designed several RF boards for IP01 including the actually commercialized one. Working as a post-doc project leader at IMT, he is challenged by the optimization of size, range, power and production of wireless systems. His position at the IMT Neuchâtel (University of Neuchâtel until 2008, EPFL Neuchâtel since 2009) provides access to a highly professional design environment and direct contacts to other research institutes such as the EPFL and the CSEM.
Olivier LévêqueOlivier Lévêque est né en Suisse en 1971. Il a reçu le diplôme d'ingénieur-physicien de l'EPFL en 1995 et obtenu le doctorat au Département de Mathématiques de l'EPFL en 2001. Depuis lors, il travaille au Laboratoire de Théorie de l'Information à l' EPFL. Il a passé l'année académique 2006-2007 au Département d'Electricité de l'Université de Stanford, où il a été nommé chargé de cours. Ses domaines d'intérêt comprennent la théorie de l'information, les matrices aléatoires et les équations aux dérivées partielles stochastiques.
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.
Gian Luca BarbruniGian Luca Barbruni achieved his BSc and his MSc in Biomedical Engineering with specialisation in Biomedical Instrumentation at the Politecnico di Torino in 2017 and 2019, respectively.During his master thesis, supervised by Prof. Danilo Demarchi from Politecnico di Torino and titled “Body Dust: Feasibility study on signal transmission for sub-100μm-size active wireless biosensors”, he spent a semester of research at Integrated Circuit Laboratory (ICLAB) of Neuchâtel under the supervision of Prof. Sandro Carrara from École Polytechnique Fédérale de Lausanne (EPFL), Switzerland. He discusses about the feasibility on creating an UltraSound (US) communication circuit to wirelessly transmit outside the body diagnostic information from multiplexed biosensors chip built on the top layer of a drinkable CMOS “Body Dust” cube. The results of the feasibility study have been published showing promising results with sub-10 µW of power consumption and a total chip area of 43 x 44 µm2.He was a Research Assistant at the Department of Electronic Engineering (DET) of Politecnico di Torino.Actually he is conducting his PhD focusing on design and fabrication of analog and digital circuits for ultra-miniaturized CMOS for vision prosthesis, directed by Prof. Diego Ghezzi at Medtronic Chair in Neuroengineering in Geneva and co-directed by Prof. Sandro Carrara at ICLAB in Neuchâtel.
