Prof. Sadik Kara

Fatih University, Turkey

Professor Sadık Kara is a Professor of Electrical and Electronics Engineering Department and Director of the Institute of Biomedical Engineering at Fatih University, Istanbul, Turkey. He received his Diploma in Electrical Engineering and his Doctorate in Biomedical Engineering Science, in 1991 and 1995, respectively. He worked as an engineer at Turkish Electricity Association, Textile Factory, and Military Maintenance Centre. From 1995-2008 he was a researcher and lecturer at Department of Electrical and Electronics Engineering, Erciyes University. Since 2008 he has been at Fatih University. He was also the Editor in Chief for the Turkish Journal of Electrical Engineering & Computer Sciences. He is a recipient of the Outstanding Research Award of several foundations and an author of over 200 publications, including 60 research papers in international refereed journals, conferences, workshop proceedings and printed books. His research interests include Electrical Devices, Electronics, Medical Electronics, Biomedical Instrumentation and Measurements, Biomedical Signal and Image Processing, Neuropsychiatric and Musical Measurements.

Fields of Research


Edited Books

  • A Roadmap of Biomedical Engineers and Milestones

    This book is devoted to different sides of Biomedical Engineering and its applications in science and Industry. The covered topics include the Patient safety in medical technology management, Biomedical Optics and Lasers, Biomaterials, Rehabilitat, Ion Technologies, Therapeutic Lasers & Skin Welding Applications, Biomedical Instrument Aopplication and Biosensor and their principles.

  • Electromotive Force and Measurement in Several Systems

    This book is devoted to different sides of Electromotive Force theory and its applications in Engineering science and Industry. The covered topics include the Quantum Theory of Thermoelectric Power (Seebeck Coefficient), Electromotive forces in solar energy and photocatalysis (photo electromotive forces), Electromotive Force in Electrochemical Modification of Mudstone, The EMF method with solid-state electrolyte in the thermodynamic investigation of ternary copper and silver chalcogenides, Electromotive Force Measurements and Thermodynamic Modelling of Electrolyte in Mixed Solvents, Application of Electromotive Force Measurement in Nuclear Systems Using Lead Alloys, Electromotive Force Measurements in High-Temperature Systems and finally, Resonance Analysis of Induced EMF on Coils.