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Keivan Kaboutari

Dept. de Eletrónica, Telecomunicações e Informàtica Universidade de Aveiro · Instituto de Telecomunicações and Dept. de Eletrónica, Telecomunicações e Informàtica Universidade de Aveiro

https://researchid.co/k.kaboutari
@ua.pt
22Scopus Publications
210Google Scholar Citations
7Google Scholar h-index
5Google Scholar i10-index

Biography

Keivan Kaboutari graduated B.Sc. in February 2003 from the Department of Electrical and Electronics Engineering of the Islamic Azad University, West Azarbaijan, Urmia Branch, in the Telecommunication Engineering field of education. He received his M.Sc. at the METU in the Electrical and Electronics Engineering-Biomedical program in February 2017. During the M.Sc. program, he worked as a research assistant in the Lorentz Force Electrical Impedance Tomography (LFEIT) project. This project was developed in the framework of TUBITAK and COST Action BM1309: European network for innovative uses of EMFs in biomedical applications (EMF-MED). He worked in companies and universities, mainly as a programmer, designer of digital circuits with microcontrollers and microprocessors, IT center manager, and lecturer. He is a Ph.D. candidate from Aveiro University, Aveiro, Portugal. As a researcher, he is a member of AI-Beam, POWER - 5G RU Indoor Antenna Design projects, and CMU Portugal Affiliated Ph.D.

Education

B.Sc. of Electrical and Electronics Engineering - Telecommunication Engineering, Islamic Azad University, West Azarbaijan, Urmia Branch (Iran) M.Sc. of Electrical and Electronics Engineering - Biomedical Engineering, Middle East Technical University (METU), Ankara (Turkey) Ph.D. student of Electronics, Telecommunications and Informatics Department, University of Aveiro (UA), Aveiro (Portugal)

Recent Scopus Publications

  1. M-SRR-Based Microwave Sensor Design and Modeling for Evaluating Transformer Oil Quality and Lifespan Employing Relative Permittivity
    IEEE Sensors Journal, 2026
  2. Circularly polarized magneto-electric dipole antenna with microstrip line cross aperture-coupled excitation
    Results in Engineering, 2026
  3. Wideband omnidirectional radiation linearly polarized antenna for UHF and DTV applications
    AEU International Journal of Electronics and Communications, 2025
  4. Mechanically Reconfigurable GRIN Lens Concept for Focusing and Beamforming Applications
    Proceedings of the International Conference on Electromagnetics in Advanced Applications Iceaa, 2025
  5. Modeling and Design of Improved-Gain Wideband Magneto-Electric Dipole Antenna for Micro-BTS Applications
    Radio Science, 2024

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