Journal ArticleDOI
Antennas and propagation for on-body communication systems
Peter Hall,Yang Hao,Yuriy I. Nechayev,Akram Alomainy,Costas Constantinou,Clive Parini,Muhammad Ramlee Kamarudin,T.Z. Salim,D.T.M. Hee,Rostyslav Dubrovka,A.S. Owadally,Wei Song,Andrea Serra,Paolo Nepa,M. Gallo,M. Bozzetti +15 more
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TLDR
Investigations into channel characterization and antenna performance at 2.45 GHz show that for many channels, an antenna polarized normal to the body's surface gives the best path gain.Abstract:
On-body communication channels are of increasing interest for a number of applications, such as medical-sensor networks, emergency-service workers, and personal communications. This paper describes investigations into channel characterization and antenna performance at 2.45 GHz. It is shown that significant channel fading occurs during normal activity, due primarily to the dynamic nature of the human body, but also due to multipath around the body and from scattering by the environment. This fading can be mitigated by the use of antenna diversity, and gains of up to 10 dB are obtained. Separation of the antenna's performance from the channel characteristics is difficult, but results show that for many channels, an antenna polarized normal to the body's surface gives the best path gain. Simulation and modeling present many challenges, particularly in terms of the problem's scale, and the need for accurate modeling of the body and its movement.read more
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Antennas and propagation for body centric wireless communications at millimeter wave frequencies: a review
Alice Pellegrini,Alessio Brizzi,Lingyan Zhang,Khaleda Ali,Yang Hao,Xianyue Wu,Costas Constantinou,Yuriy I. Nechayev,Peter Hall,Nacer Chahat,Maxim Zhadobov,Ronan Sauleau +11 more
TL;DR: In this paper, the authors provide a review of recent progresses and outstanding challenges in the field of body-centric communication at frequencies of 60 GHz and 94 GHz, as well as numerical modeling of antennas and propagation at millimeter-wave frequencies.
Journal ArticleDOI
Energy-efficient adaptive transmission power control for wireless body area networks
TL;DR: A novel energy-efficient adaptive power control (APC) algorithm is proposed that adaptively adjusts transmission power (TP) level based on the feedback from base station that achieves significant higher energy savings than Monte Carlo simulations in MATLAB.
Journal ArticleDOI
Characterization of the Interactions Between a 60-GHz Antenna and the Human Body in an Off-Body Scenario
TL;DR: In this paper, a 60 GHz microstrip patch antenna array designed for off-body communications and the human body is investigated numerically and experimentally in terms of reflection coefficient, radiation pattern, and antenna efficiency.
Journal ArticleDOI
A Statistical Model for On-Body Dynamic Channels
Raffaele D'Errico,Laurent Ouvry +1 more
TL;DR: A dynamic on-body channel model based on a time-variant measurement campaign at 2.45 GHz and in the 3–5 GHz band is presented with emphasis on the differences given by the human body variability and the movement condition.
Journal ArticleDOI
A review of radio channel models for body centric communications
TL;DR: In this article, the authors present a survey of the current state of the art in relation to propagation and channel models primarily for BANs but also considering other types of body centric communications.
References
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Journal ArticleDOI
Antenna diversity in mobile communications
TL;DR: The mutual resistance condition offers a powerful design tool, and examples of new mobile diversity antennas are discussed along with some existing designs.
BookDOI
Fundamentals of Wearable Computers and Augumented Reality
Woodrow Barfield,Thomas Caudell +1 more
TL;DR: A trusted reference for almost 15 years, Fundamentals of Wearable Computers and Augmented Reality goes beyond smart clothing to explore user interface design issues specific to wearable tech and areas in which it can be applied.
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Specific absorption rate and temperature elevation in a subject exposed in the far-field of radio-frequency sources operating in the 10-900-MHz range
TL;DR: The exposure of a subject in the far field of radiofrequency sources operating in the 10-900-MHz range has been studied and the thermal model used, which takes into account the thermoregulatory system of the human body, has been validated through a comparison with experimental data.
Journal ArticleDOI
Channel model for wireless communication around human body
TL;DR: In this paper, a channel model for a wireless body area network at 400 MHz, 900 MHz and 2.4 GHz was derived and the electromagnetic wave propagation around the body was simulated with a finite-difference time-domain simulator.
Proceedings ArticleDOI
UWB for noninvasive wireless body area networks: channel measurements and results
TL;DR: In this paper, the authors presented UWB channel measurements from 3 to 6 GHz for a body area network (BAN) in an anechoic chamber and an office room.