no code implementations • 9 Mar 2022 • Tassneem Helal, Fady Aziz, Omar Metwally, Marco F. Huber, Dominik Alscher, Christoph Wasser, Urs Schneider
Estimating human vital signs in a contactless non-invasive method using radar provides a convenient method in the medical field to conduct several health checkups easily and quickly.
no code implementations • 2 Nov 2021 • Fady Aziz, Omar Metwally, Pascal Weller, Urs Schneider, Marco F. Huber
In this paper, a MIMO radar is used to formulate a novel micro-motion spectrogram for the angular velocity ({\mu}-{\omega}) in non-tangential scenarios.
no code implementations • 16 Oct 2021 • Pascal Weller, Fady Aziz, Sherif Abdulatif, Urs Schneider, Marco F. Huber
Radar for deep learning-based human identification has become a research area of increasing interest.
no code implementations • 30 May 2021 • Fady Aziz, Bassam Elmakhzangy, Christophe Maufroy, Urs Schneider, Marco F. Huber
The algorithm is implemented on a microcontroller subsystem of the radar kit to qualify the perception system for embedded integration in powered prosthetic legs.
no code implementations • 4 Mar 2019 • Karim Armanious, Sherif Abdulatif, Fady Aziz, Urs Schneider, Bin Yang
Radar is of vital importance in many fields, such as autonomous driving, safety and surveillance applications.
no code implementations • 17 Nov 2018 • Sherif Abdulatif, Fady Aziz, Karim Armanious, Bernhard Kleiner, Bin Yang, Urs Schneider
In our proposed experimental setup, a treadmill is used to collect $\boldsymbol{\mu}$-D signatures of 22 subjects with different genders and body characteristics.
no code implementations • 12 Nov 2018 • Sherif Abdulatif, Karim Armanious, Fady Aziz, Urs Schneider, Bin Yang
Two sets of experiments were collected on 22 subjects walking on a treadmill at an intermediate velocity using a \unit[25]{GHz} CW radar.
no code implementations • 25 Nov 2017 • Sherif Abdulatif, Fady Aziz, Bernhard Kleiner, Urs Schneider
Unique micro-Doppler signature ($\boldsymbol{\mu}$-D) of a human body motion can be analyzed as the superposition of different body parts $\boldsymbol{\mu}$-D signatures.
no code implementations • 25 Nov 2017 • Sherif Abdulatif, Qian Wei, Fady Aziz, Bernhard Kleiner, Urs Schneider
Radar sensors can be used for analyzing the induced frequency shifts due to micro-motions in both range and velocity dimensions identified as micro-Doppler ($\boldsymbol{\mu}$-D) and micro-Range ($\boldsymbol{\mu}$-R), respectively.