A
Aziz Benlarbi-Delai
Researcher at University of Paris
Publications - 82
Citations - 533
Aziz Benlarbi-Delai is an academic researcher from University of Paris. The author has contributed to research in topics: Communication channel & Computer science. The author has an hindex of 10, co-authored 74 publications receiving 432 citations. Previous affiliations of Aziz Benlarbi-Delai include Centre national de la recherche scientifique & Pierre-and-Marie-Curie University.
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Using enhanced-TDOA measurement for indoor positioning
TL;DR: In the field of ad hoc networks, maintaining connectivity and performing efficient energy communication between several mobile stations (MS), involves the use of optimized geo localization based routing algorithms, which can lead to the measurement of an enhanced TDOA (E-TDOA) measurement for accurate positioning.
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A New Multi-Sensor Fusion Scheme to Improve the Accuracy of Knee Flexion Kinematics for Functional Rehabilitation Movements
Halim Tannous,Dan Istrate,Aziz Benlarbi-Delai,Julien Sarrazin,Didier Gamet,Marie Christine Ho Ba Tho,Tien Tuan Dao +6 more
TL;DR: A real time quaternion-based fusion scheme, based on the extended Kalman filter, between inertial and visual motion capture sensors, to improve the estimation accuracy of joint angles and shows a better estimation, when compared to inertial measurement units and Kinect outputs.
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Near-Body Shadowing Analysis at 60 GHz
TL;DR: In this article, a numerical model of the fading of a receiver (Rx) located near the user body at 60 GHz in an indoor environment is presented, based on the indoor channel model IEEE 802.11ad.
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Theoretical and Experimental Investigation of a 60-GHz Off-Body Propagation Model
Theodoros Mavridis,Luca Petrillo,Julien Sarrazin,David Lautru,Aziz Benlarbi-Delai,Philippe De Doncker +5 more
TL;DR: In this article, a fast computation and accurate analytical model for off-body propagation is derived for normal incident plane wave by describing the human body with a circular cylinder, which shows that the total received electric field around the body can be written as a creeping wave in the shadow region and as a geometrical optics result for the lit region.
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Analytical Creeping Wave Model and Measurements for 60 GHz Body Area Networks
Luca Petrillo,Theodoros Mavridis,Julien Sarrazin,David Lautru,Aziz Benlarbi-Delai,Philippe De Doncker +5 more
TL;DR: In this article, the propagation of 60 GHz electromagnetic waves around a human body is studied analytically and experimentally, and the body is treated as a circular lossy cylinder, which is an approximation of the human torso.