A 210–270-GHz circularly polarized FMCW radar with a single-lens-coupled SiGe HBT chip
A complete circularly polarized 210-270-GHz frequency-modulated continuous-wave radar
with a monostatic homodyne architecture is presented. It consists of a highly integrated radio …
with a monostatic homodyne architecture is presented. It consists of a highly integrated radio …
A novel frequency beam-steering antenna array for submillimeter-wave applications
This paper describes design and development of a novel frequency beam-scanning array
antenna operating at Y-band (220-325 GHz). The proposed antenna is a traveling-wave …
antenna operating at Y-band (220-325 GHz). The proposed antenna is a traveling-wave …
Study of low terahertz radar signal backscattering for surface identification
SM Sabery, A Bystrov, M Navarro-Cía, P Gardner… - Sensors, 2021 - mdpi.com
This study explores the scattering of signals within the mm and low Terahertz frequency
range, represented by frequencies 79 GHz, 150 GHz, 300 GHz, and 670 GHz, from surfaces …
range, represented by frequencies 79 GHz, 150 GHz, 300 GHz, and 670 GHz, from surfaces …
High-resolution polarimetric radar for autonomous vehicle research at W-band frequencies
AY Nashashibi, TJ Douglas… - … on Radar Systems, 2024 - ieeexplore.ieee.org
This article presents a fully polarimetric instrumentation radar designed for conducting
phenomenological studies in support of autonomous vehicle research at W-band …
phenomenological studies in support of autonomous vehicle research at W-band …
Experimental Characterization of Multi-Polarization Radar Backscatter Response of Vehicles at -Band
AA Alaqeel, AA Ibrahim, AY Nashashibi… - IEEE Transactions …, 2018 - ieeexplore.ieee.org
This paper proposes radar sensors operating at J-band (220-320 GHz) for automotive
applications. Operating at J-band, at about three times higher frequency than the currently …
applications. Operating at J-band, at about three times higher frequency than the currently …
Scattering from layered rough surfaces: Analytical and numerical investigations
H Zamani, A Tavakoli… - IEEE Transactions on …, 2016 - ieeexplore.ieee.org
The first-order perturbative solution of scattering from layered rough surfaces is investigated
numerically and analytically. The analytical solution is obtained using a small perturbation …
numerically and analytically. The analytical solution is obtained using a small perturbation …
G-band FMCW Doppler radar for close-range environmental sensing
AB Vattulainen, S Rahman… - IEEE Transactions on …, 2024 - ieeexplore.ieee.org
Radar systems operating within the 220 GHz atmospheric transmission window are
comparatively rare despite the benefits they offer in high angular, range, and Doppler …
comparatively rare despite the benefits they offer in high angular, range, and Doppler …
J-Band Polarimetric Radar Measurements of Surfaces at High Incidence Angles
AA Alaqeel, TJ Douglas, AY Nashashibi… - … on Geoscience and …, 2024 - ieeexplore.ieee.org
This article reports on polarimetric radar backscatter responses of different types of surfaces
at high angles of incidence (80°–89°) at J-band frequencies (221–231 GHz). This study is …
at high angles of incidence (80°–89°) at J-band frequencies (221–231 GHz). This study is …
Fully polarimetrie FMCW instrumentation radar at 228 GHz
AY Nashashibi, B Alazem… - 2017 USNC-URSI Radio …, 2017 - ieeexplore.ieee.org
Fully Polarimetric FMCW Instrumentation Radar at 228 GHz Page 1 Fully Polarimetric FMCW
Instrumentation Radar at 228 GHz Adib Y. Nashashibi*, Badeea Alazem, and Kamal Sarabandi …
Instrumentation Radar at 228 GHz Adib Y. Nashashibi*, Badeea Alazem, and Kamal Sarabandi …
Detection and Identification of Pedestrians and Bicyclists Using J-Band Automotive Radars
AA Alaqeel, A Alburadi, AY Nashashibi… - IGARSS 2023-2023 …, 2023 - ieeexplore.ieee.org
This paper presents a thorough phenomenological study of the responses of human
subjects to millimeter-wave radars operating at J-band (220-325 GHz). In highly automated …
subjects to millimeter-wave radars operating at J-band (220-325 GHz). In highly automated …