Luca Petrillo scite author profile

A fast computation and accurate analytical model for off-body propagation is derived in this paper. The paper discusses the off-body model propagation from an external source to a receiver located on the body. The model is developed for normal incident plane wave by describing the human body with a circular cylinder. We show that the total received electric field around the human body can be written as a creeping wave in the shadow region and as a Geometrical Optics result for the lit region. It is also shown that at 60 GHz, the shadow boundary width is negligible. The model shows perfect agreement with the experimental results conducted on a perfectly conducting cylinder. Measurements of the creeping wave path gain have been also conducted on a real body to assess the validity of the cylinder assumption. The results have shown a path gain of about 5 dB/cm for TM case and 3 dB/cm for TE case. The standard deviation between the measurements and the cylindrical model is about 3.5 dB for both TM and TE cases.

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Near-Body Shadowing Analysis at 60 GHz

Petrillo

Sarrazin

Benlarbi-Delaï

et al. 2015

IEEE Trans. Antennas Propagat.

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International audienceA numerical model of the fading of a receiver located near the user body at 60 GHz in an indoor environment is presented. The model is based on the indoor channel model IEEE 802.11ad. The results are presented for a receiver located in a zone from 5 to 30 cm away from the body. With the shadowing depending on the region (front or back) with respect to the base station, the mean attenuation of the channel over the bandwidth is analyzed and model thanks to a Two-Wave Diffuse Power distribution model

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Experimental Demonstration of BLE Transmitter Positioning Based on AOA Estimation

Monfared

Nguyen

Petrillo

et al. 2018

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The introduction of the Bluetooth Low Energy (BLE) standard significantly streamlines the development of the Internet of Things (IoT) applications. These applications often require the sensor positioning to link the measurements with its location. Therefore, it is essential to conduct studies on BLE transmitter positioning methods. Power fingerprinting transmitter positioning approaches are commonly used in BLE network. However, these methods have their own limitations in terms of practical use and ease of implementation. The purpose is to develop a simple BLE transmitter positioning of high accuracy. In this paper, a BLE transmitter positioning method is proposed based on Angle of Arrival (AOA) estimation. Multiple Signal Classification (MUSIC) algorithm is used for angle estimation due to the high angular resolution and sensitivity. Several experiments have been conducted in an indoor environment and the results compared with simulation results. Experimental results show that our proposed BLE transmitter positioning method achieves a promising positioning accuracy.

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Statistical On-Body Measurement Results at 60 GHz

Petrillo

Sarrazin²,

Benlarbi-Delaï³

et al. 2015

IEEE Trans. Antennas Propagat.

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Luca Petrillo

A dual concept of nevogenesis:Theoretical considerations based on dermoscopic features of melanocytic nevi

Theoretical and Experimental Investigation of a 60-GHz Off-Body Propagation Model

Near-Body Shadowing Analysis at 60 GHz

Experimental Demonstration of BLE Transmitter Positioning Based on AOA Estimation

Statistical On-Body Measurement Results at 60 GHz

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