KOKOZINSKI, Rainer

KOKOZINSKI, Rainer
Prof. Dr.-Ing.

 

Appointments

1987 – 1990                          Research Assistant, Fraunhofer Institute for Microelectronic Circuits and Systems, Duisburg, Germany
1990 – 1996 Research Scientist, Fraunhofer Institute for Microelectronic Circuits and Systems, Duisburg, Germany
1996 – 1997 Postdoc Researcher, Fraunhofer Institute for Microelectronic Circuits and Systems, Duisburg, German
1998 – 1999 Project Manager ASIC/ASSP Development, Toshiba Electronics Europe GmbH, Düsseldorf, Germany
2000 – 2001 Group Manager “Media and Communication Technologies”, Fraunhofer Institute for Microelectronic Circuits and Systems, Duisburg, Germany
2002 – present Head of Department “Integrated Circuits and Systems”, Fraunhofer Institute for Microelectronic Circuits and Systems, Duisburg, Germany
2008 – present W3 Professor for Circuit Design “Micro- and Nano systems”, Universität Duisburg-Essen, Duisburg, Germany

 

Academic Qualification and Education

1990         Diploma in Electrical Engineering, Universität-Gesamthochschule Duisburg, Duisburg, Germany
1996  Dr.-Ing. degree, Gerhard-Mercator-Universität, Duisburg, Germany
2008 W3 Professor at Universität Duisburg-Essen, Duisburg, Germany

 

Teaching Experience

  • Integrated Analog Circuits (Winter Semesters 2008 - present), M.Sc. Level.
     
  • System on Chip Design (Winter Semesters 2009 - 2013), M.Sc. Level.
     
  • Basics of electronic Circuit Design (Summer Semester 2013 - present), B.Sc. Level.
     
  • Integrated Analog Circuits Online (Winter Semesters 2014 - present), M.Sc. Level.

Research Topics

Microelectronics and microelectronic circuit design with focus on intelligent medical implants, transponders, analog front-ends for sensors and sensor systems, CMOS mixed-signal circuit design, domain specific HW accelerators and circuit design techniques for safety and security applications.

Key Publications

  1. A. Marzouk, A. Stanitzki, R. Kokozinski: Konzept zum Stimulieren von Nervenzellen. DE102012203192 A1: 05.09.2013.
  2. E. Engelien, Y. Bai, B. Strathen, R. Viga, T. Hilbel, R.Kokozinski: „Modelling of the human blood circulation and detection of pathophysiological symptoms of atherosclerosis in dependence of the arterial blood flow volume and blood pressure” (Computing in cardiology (CinC ) <38, 2011, Hangzhou>). In: Computing in cardiology (CinC 2011). Piscataway, NJ, USA: IEEE, 2011, pp. 493 - 496.
  3. A. Marzouk, A. Stanitzki, R. Kokozinski: „High frequency pulse-density modulated switched-capacitor based functional electrical stimulation of retinal bipolar cells“. In Artificial Vision 2013. Aachen, Germany.
  4. A. Marzouk, A. Stanitzki, R. Kokozinski: „Towards pulse-density modulated functional electrical stimulation of neural cells with passive membranes“. In PRIME 2012, Berlin, Germany.
  5. P. Raffelberg, A.M. Marzouk, D. Schüttler, R. Viga, R. Kokozinski: „Evaluation of Neuronal Stimulation Methods for Retinal Bipolar Cells Including New Pulse Density Modulated, Charge Controlled Stimulation Approach“ In Artificial Vision 2015. Aachen, Germany.
  6. A. Erbslöh, R. Viga, P. Walter, R. Kokozinski, A. Grabmaier: „Implementation of a charge-controlled stimulation method in a monolithic integrated CMOS-chip for excitation of retinal neuron cells“. In Austrian Workshop on Microelectronics (Austrochip) 2017, Linz, pp. 48-52.
  7. A. Erbslöh, P. Raffelberg, R. Viga, R. Kokozinski, A. Grabmaier: “Evaluation of an Enhanced Electrical Charge Controlled Stimulation Method for Retinal Bipolar Cells”. In, Conference on Artificial Vision 2017, Aachen, Germany.
  8. P. Raffelberg, F. Waschkowski, R. Viga, R. Kokozinski: „Design of a CMOS image sensor and stimulation IC for a wide-angle retina implant“. In 13th Conference on PhD Research in Microelectronics and Electronics (PRIME) 2017, pp. 309 – 312.
  9. P. Raffelberg, A. Erbslöh, R. Viga, W. Mokwa, R. Kokozinski: „Towards a monolithic integrated stimulator with integrated image sensor for a wide angle retina implant”. In Conference on Artificial Vision 2017, Aachen, Germany.
  10. P. Raffelberg, R. Burkard, R. Viga, W. Mokwa, P. Walter, A. Grabmaier and R. Kokozinski, "Current Controlled CMOS Stimulator with Programmable Pulse Pattern for a Retina Implant," 2018 14th Conference on Ph.D. Research in Microelectronics and Electronics (PRIME), Prague, Czech Republic, 2018, pp. 253-256.