Title :
Measurement and Characterization of Channel Delays for Broadband Power Line Communications
Author :
Huang, Guo ; Akopian, David ; Chen, C.L.P.
Author_Institution :
Univ. of Texas at San Antonio, San Antonio, TX, USA
Abstract :
Power Line Communications (PLC) emerged as a competitive technology for indoor broadband communications. It exploits the existing power line infrastructure for data transmissions. Transmission delays may essentially degrade the performance of applications relying on two-way communications such as videoconferencing, remote control systems, online games, and so on. Reported PLC channel models indirectly characterize signal propagation delays through channel transfer functions or impulse responses, but they do not address more important delays occurring because of multiple retransmissions of lost data packets in noisy PLC channels. This paper proposes a cost-efficient data delay measurement and a high-level statistical modeling approach for applications that are sensitive to data delays. Hybrid statistical distributions are explored for accurate delay characterization.
Keywords :
carrier transmission on power lines; delays; power measurement; statistical analysis; statistical distributions; telecommunication channels; transfer functions; PLC; broadband power line communication; channel delay measurement; channel transfer functions; data delay measurement; high-level statistical modeling approach; impulse response; lost data packet retransmission; noisy PLC channel model; online game; remote control system; signal propagation delay; statistical distribution; transmission delay; two-way communication; videoconferencing; Analytical models; Channel models; Data models; Delays; Joints; Maximum likelihood estimation; Testing; Channel delay model; network delays; power line communications (PLC); power line communications (PLC).;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2014.2313033
