Title :
A discrete multitone transceiver at the heart of the PHY layer of an in-home power line communication local-area network
Author :
Baig, Sobia ; Gohar, N.D.
fDate :
4/1/2003 12:00:00 AM
Abstract :
A networked home is a micro-version of the Internet, connecting home appliances, PCs, and other smart devices not only to one another but also to a globally connected world through the Internet. For consumers to embrace home networking, a solution that utilizes the existing infrastructure within the home, such as electrical wiring, is significant. However, the use of power lines as a home networking platform presents quite a troublesome and noisy environment that fluctuates with varying load impedance and time, and is also plagued by impulse noise. The latest developments in VLSI and DSP technologies have enabled power line communication (PLC) networks to compensate for the impairments of the environment. This article discusses the use of discrete multitone technology at the PHY layer of an in-home PLC network, particularly with reference to bit-loading techniques.
Keywords :
VLSI; carrier transmission on power lines; digital signal processing chips; electric impedance; forward error correction; home computing; impulse noise; local area networks; transceivers; DMT technology; DSP technology; FEC; Internet; PC; PHY layer; VLSI technology; bit-loading techniques; discrete multitone transceiver; electrical wiring; forward error correction; home appliances; home networking; impulse noise; in-home PLC network; in-home power line communication LAN; load impedance; local-area network; noisy environment; personal computers; physical layer; power line communication networks; smart devices; Heart; Home appliances; IP networks; Joining processes; Local area networks; Physical layer; Power line communications; Programmable control; Transceivers; Working environment noise;
Journal_Title :
Communications Magazine, IEEE
DOI :
10.1109/MCOM.2003.1193974
