Smart Grid Monitoring Using Power Line Modems: Effect of Anomalies on Signal Propagation

TL;DR

This paper develops theoretical models to analyze how high frequency signals from power line modems propagate in power grids and how electrical anomalies affect this propagation, aiding grid monitoring.

Contribution

It introduces two models based on reflectometric and end-to-end measurements for detecting and locating anomalies in power networks using high frequency signals.

Findings

Models effectively characterize anomaly impact on signal propagation

Analysis enables development of anomaly detection algorithms

Provides theoretical foundation for power grid monitoring

Abstract

The aim of the present work is to provide the theoretical fundamentals needed to monitor power grids using high frequency sensors. In our context, network monitoring refers to the harvesting of different kinds of information: topology of the grid, load changes, presence of faults and cable degradation. We rely on transmission line theory to carry out a thorough analysis of how high frequency signals, such those produced by power line modems, propagate through multi-conductor power networks. We also consider the presence of electrical anomalies on the network and analyze how they affect the signal propagation. In this context, we propose two models that rely on reflectometric and end-to-end measurements to extrapolate information about possible anomalies. A thorough discussion is carried out to explain the properties of each model and measurement method, in order to enable the development of appropriate anomaly detection and location algorithms.