Special Issues

Power Line Communications: Architectures, Applications, and Challenges

Submission Deadline: 31 March 2023 (closed) View: 82

Guest Editors

Dr. Hamed Hashemi-Dezaki, Regional Innovation Centre for Electrical Engineering (RICE),University of West Bohemia, Czech Republic.
Email: hhashemi@fel.zcu.cz, hhashemi@ieee.org, Hamed.hashemi@gmail.com


Dr. Hamed Nafisi, School of Electrical and Electronic Engineering, Technological University Dublin (TU Dublin), Ireland. Email: Hamed.Nafisi@TUDublin.ie


Dr. Tamás Orosz, Ph.D. Electrical Engineering, MONTANA Knowledge Management Ltd. USA. E-mail: orosz.tamas@montana.hu

Summary

In recent years power line communication (PLC) has been an application that can skillfully and efficiently utilise existing power circulation systems. Power line communication ought to be growing, consuming inventiveness from other electrical contact and potential technology advancements. It works for a significant purpose, implementing reliable and reasonable connection from pass band to cellular internet and grating-related technology to amusement assistance. Power line communication holds enormous significance for the consistent character of intermediaries beyond the enterprise.

 

PLC allows numerous improvements across other applications, with an appreciative opponent to a few numbers of them. The obvious benefits are the demand for no extra installation, hedging wherever wireless transmission cannot be completely expanded, willingness to be combined into grid-connected appliances, etc. Power line communications shall be a compelling analysis field for several periods. Still, the crisis is because all present commercial and specialised spontaneous benefits for a comprehensive technology employing the existing electrical network as a broadcast medium. The power line communication circumstances profoundly rely on the situation and hence traverse an extensive range. Frequently, this can be assumed that the PLC communication displays frequency-selective multilane vanish and a low-pass operation.

 

Moreover, fluctuating current PLC-related cyclic short space of time variations and direct long-lasting modifications can be recognised. The power line communication circumstances profoundly rely on the situation and hence traverse an extensive range. Frequently, this can be assumed that the PLC communication displays frequency-selective multilane vanish and a low-pass operation. Moreover, fluctuating current PLC-related cyclic short space of time variations and direct long-lasting modifications can be recognised. The PLC is a method that operates with the power grid and communication techniques on its applicability. The most reliable transmission systems must be implemented to all the lineages in power line communication systems to accomplish the most efficient allocation and communication methods.  The utmost essential point is scheming an information system structure to clarify interrelated operations, which it can apply in the forthcoming transmission.

 

The central PLC automation and its applicability have been planned. The major provocations that power line communication systems are currently confronting are relevant to reaching the prerequisites of innovative applications. PLC can also constrain the dynamic and passiveness of allocation plans. It is necessary especially for substations placed in rural areas wherever their islet any information framework. PLC application is habitually used for data transmission mechanisms and under charge power lines. PLC uses the current path, so it is appropriate for applications. This Special Issue will focus on recent advances in optical networking technologies; nevertheless, electrical cords express a severe transmission. In the past several years, much experimentation has been displayed to develop their execution and present them fitting for different situations.

 

Topics of interest include but are not limited to:

 

Secure panel key production in the disproportionate Power Line Communication application

Recent advancements of the power line communication

Recurrence balanced for low-bandwidth Power line Communication technology

Power-Line Communications: Transmission, propagation, and smart grids

The electrical field in operating expense broadcast line for PLC indication research analysis

A power line data communication in home automation

The role of cognitive range shaping for innovative home Power Line Communications

Power line communication systems for automation systems

Analysis and control method for electrical energy management

A power line transmission by range spectrum technology in residence automation

Advancements in power line communication and its applicability

Power Line Communication (PLC) Evolution: current challenges and inventive challenges


Keywords

Power Line Communication (PLC); Energy Management Systems; Smart Grids; Smart Homes; Automated Energy Systems; Automated Distribution Systems; Residence Automation

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