Papers in Peer Reviewed Journals by Ted Zervos
An investigation of the fading experienced by on-body diversity channels at 2.45 GHz is presented... more An investigation of the fading experienced by on-body diversity channels at 2.45 GHz is presented by focusing on the effects of the receive antennas position and the human body movement. This investigation
is based on the conduction and analysis of signal measurements in an indoor
office environment using bodyworn antennas. Three principal combining
techniques, namely selection combining (SC), equal gain combining (EGC)
and maximal ratio combining (MRC) are considered. A statistical characterization of the fading experienced by dual diversity on-body channels is
performed in terms of first and second order statistics. Our investigations
have shown that among several distributions tested, the distribution provides sufficient fit to measured combined signal envelopes and also
offers a good approximation to second order statistics for the majority of
test cases.
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Papers in Peer Reviewed Journals by Ted Zervos
is based on the conduction and analysis of signal measurements in an indoor
office environment using bodyworn antennas. Three principal combining
techniques, namely selection combining (SC), equal gain combining (EGC)
and maximal ratio combining (MRC) are considered. A statistical characterization of the fading experienced by dual diversity on-body channels is
performed in terms of first and second order statistics. Our investigations
have shown that among several distributions tested, the distribution provides sufficient fit to measured combined signal envelopes and also
offers a good approximation to second order statistics for the majority of
test cases.
is based on the conduction and analysis of signal measurements in an indoor
office environment using bodyworn antennas. Three principal combining
techniques, namely selection combining (SC), equal gain combining (EGC)
and maximal ratio combining (MRC) are considered. A statistical characterization of the fading experienced by dual diversity on-body channels is
performed in terms of first and second order statistics. Our investigations
have shown that among several distributions tested, the distribution provides sufficient fit to measured combined signal envelopes and also
offers a good approximation to second order statistics for the majority of
test cases.