Sabih Guzelgoz scite author profile

Wireless, power line communication (PLC), fiber optic, Ethernet, and so forth are among the communication technologies on which smart grid communication infrastructure is envisioned to be built. Among these, wireless and PLC-based solutions are attractive considering the cost of initial deployment. Wireless communication deployment in smart grid covers a variety of environments such as indoor, outdoor, and electric-power-system facilities. Similar diversity is expected in PLC deployment as well covering low voltage (LV), medium voltage (MV), and high voltage (HV) segments of the grid. In spite of being attractive, wireless and PLC channels are very harsh posing great challenges to performance of communication systems. In proposing solutions to smart grid communication needs, two approaches are likely to be followed. One is based on the use of existing wireless and PLC technologies with some modifications, and the other relies upon developing novel communication protocols particularly addressing the smart grid needs. Both of these approaches require an in-depth knowledge of communication channel characteristics. The aim of this study is to reveal the wireless and PLC channel characteristics of smart grid environments in terms of several parameters such as path loss and attenuation, time dispersion, time selectivity, amplitude statistics, and noise characteristics.

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A Wireless Communications Systems Laboratory Course

Guzelgoz

Arslan

2010

IEEE Trans. Educ.

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Time frequency analysis of noise generated by electrical loads in PLC

Guzelgoz

Celebi

Guzel

et al. 2010

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Sabih Guzelgoz

Underground Mine Communications: A Survey

Statistical Characterization of the Paths in Multipath PLC Channels

A Review of Wireless and PLC Propagation Channel Characteristics for Smart Grid Environments

A Wireless Communications Systems Laboratory Course

Time frequency analysis of noise generated by electrical loads in PLC

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