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Nafati Aboserwal
Also published under:Nafati A. Aboserwal
Affiliation
Advanced Radar Research Center (ARRC), School of Electrical and Computer Engineering (ECE), The University of Oklahoma, Norman, Oklahoma, USA
Topic
Antenna Array,Radar System,Antenna Pattern,Cross-polarization Level,Microstrip Antenna,Patch Antenna,Radiation Pattern,Weather Radar,Active Antenna,Communication Systems,Dielectric Constant,Half-power Beamwidth,Impedance Bandwidth,Incident Angle,Material Characterization,Narrow Beamwidth,Oblique Angle,Oblique Incidence Angle,Operating Frequency,Substrate Thickness,Air Control,Antenna Design,Antenna Radiation Pattern,Array Of Unit Cells,Bandwidth Of The Antenna,Fabric Thickness,Frequency Band,Frequency Domain,Frequency Range,Frequency Selective Surface,Function Of Incidence Angle,GHz Frequency,Horn Antenna,Layer Thickness,Leaky-wave Antenna,Loss Tangent,Method Of Moments,Microstrip Patch,Permittivity Of Material,Phased Array,Phased Array Antenna,Resonance Frequency,Scan Range,Scanning Angle,Slot Antenna,Transmission Line,Transmission Line Model,Ultra-wideband,Accuracy Of Model,Accuracy Of Procedure,
Biography
Nafati Aboserwal (Member, IEEE) received the B.S. degree in electrical engineering from Al-Mergheb University, Alkhoms, Libya, in 2002, and the M.S. and Ph.D. degrees in electrical engineering from Arizona State University, Tempe, AZ, USA, in 2012 and 2014, respectively.
In January 2015, he joined the Advanced Radar Research Center (ARRC) and the Department of Electrical and Computer Engineering, The University of Oklahoma (OU), Norman, OK, USA, as a Post-Doctoral Research Scientist. He is currently a Research Associate and the Manager of Far-Field, Near-Field and Environmental Anechoic Chambers with the Radar Innovations Laboratory (RIL). His research interests include EM theory, computational electromagnetics, antennas, and diffraction theory, edge diffraction, and discontinuities impact on the array performance. His research also focuses on active high-performance phased array antennas for weather radars, higher modes, and surface waves characteristics of printed antennas, and high-performance dual-polarized microstrip antenna elements with low cross polarization.
Dr. Aboserwal is a member of the IEEE Antennas and Propagation Society.
In January 2015, he joined the Advanced Radar Research Center (ARRC) and the Department of Electrical and Computer Engineering, The University of Oklahoma (OU), Norman, OK, USA, as a Post-Doctoral Research Scientist. He is currently a Research Associate and the Manager of Far-Field, Near-Field and Environmental Anechoic Chambers with the Radar Innovations Laboratory (RIL). His research interests include EM theory, computational electromagnetics, antennas, and diffraction theory, edge diffraction, and discontinuities impact on the array performance. His research also focuses on active high-performance phased array antennas for weather radars, higher modes, and surface waves characteristics of printed antennas, and high-performance dual-polarized microstrip antenna elements with low cross polarization.
Dr. Aboserwal is a member of the IEEE Antennas and Propagation Society.