Title :
A binary tree network topology for statistical and physical PLC channel modeling
Author :
Delestre, Cyrile ; Ndo, G. ; Labeau, Fabrice
Author_Institution :
McGill Univ., Montreal, QC, Canada
Abstract :
Traditional powerline channel modeling methods usually present the drawback to be either not strongly attached to the underlying physics or to be too difficult to implement for complex electrical networks. To tackle these issues, we propose, in this paper, a statistical modeling of the network topology with a binary tree, combined to the classical bottom-up calculation of the channel transfer function (CTF). The proposed approach allows to build recursive algorithms for topology tree construction and for automatic CTF computation. Moreover, these algorithms can be easily extended to Multiple-Input-Multiple-Ouput (MIMO) case from the Single-Input-Single-Output (SISO) scenario considered here.
Keywords :
MIMO communication; carrier transmission on power lines; statistical analysis; telecommunication network topology; transfer functions; wireless channels; MIMO; SISO; automatic CTF computation; binary tree network topology; channel transfer function; classical bottom-up calculation; complex electrical network; multiple-input-multiple-ouput; physical PLC channel modeling; powerline channel modeling method; recursive algorithm; single-input-single-output; statistical modeling; Binary trees; Computational modeling; Impedance; Network topology; Topology; Transfer functions; Zirconium;
Conference_Titel :
Power Line Communications and Its Applications (ISPLC), 2013 17th IEEE International Symposium on
Conference_Location :
Johannesburg
Print_ISBN :
978-1-4673-6014-2
Electronic_ISBN :
978-1-4673-6015-9
DOI :
10.1109/ISPLC.2013.6525872
