Characterization of the Indoor Multiantenna Body-to-Body Radio Channel

In this paper, we investigate the wideband body-to-body radio channel with multiple antennas at both ends based on a time-domain radio channel measurement campaign. Four single-element transmitters and eight quad-element receivers were mounted on three test people. Both directional and omnidirection...

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Bibliographic Details
Published in:IEEE transactions on antennas and propagation 2009-04, Vol.57 (4), p.972-979
Main Authors: Yu Wang, Bonev, I.B., Nielsen, J.O., Kovacs, I.Z., Pedersen, G.F.
Format: Article
Language:English
Subjects:
Antenna measurements
Antennas
Blockage
body shadowing
Body-to-body communication
Broadband antennas
Channels
Directive antennas
Electromagnetic measurements
Gain
Loss measurement
Radio
Radio transmitters
Receivers
selection diversity
Shadow mapping
Testing
Time domain analysis
Transmitters
Wideband
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Summary:In this paper, we investigate the wideband body-to-body radio channel with multiple antennas at both ends based on a time-domain radio channel measurement campaign. Four single-element transmitters and eight quad-element receivers were mounted on three test people. Both directional and omnidirectional antennas have been investigated. A comparison between electromagnetic antenna simulations and the measurements shows that the multipath environment reduces the body losses effectively. Channel characterizations in terms of path loss, body shadowing, small-scale fading, and spatial correlation have been derived. Small path-loss exponents (< 2.0) are observed in the investigated environments. Considerable power loss due to body blockage makes the body shadowing a prominent factor in the short-range body-to-body communications. Distributed antenna selection diversity is presented to mitigate the body shadowing. A 5-dB diversity gain in the average received power at the mean and 10% outage levels have been identified based on the measurements with two distributed antennas mounted on the transmitter and receiver person and without channel-state information feedback to the transmitter.
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2009.2014580