A Synchronized Lissajous-Based Method to Detect and Classify Events in Synchro-Waveform Measurements in Power Distribution Networks

Waveform measurement units (WMUs) are a new class of smart grid sensors. They capture synchro-waveforms , i.e., time-synchronized high-resolution voltage waveform and current waveform measurements. In this paper, we propose new methods to detect and classify power quality events in power distributio...

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Bibliographic Details
Published in:IEEE transactions on smart grid 2022-05, Vol.13 (3), p.2170-2184
Main Authors: Izadi, Milad, Mohsenian-Rad, Hamed
Format: Article
Language:English
Subjects:
Artificial neural networks
Classification
convolutional neural network
Current measurement
data-driven method
detection
Electric power distribution
Event detection
Hardware-in-the-loop simulation
hardware-in-the-loop simulations
Image classification
Image processing
Methods
Power measurement
Power quality
power quality event
Shape
Smart grid
Smart sensors
Synchro-waveform
Synchronization
synchronized Lissajous curves
Time synchronization
Units of measurement
Voltage measurement
waveform measurement unit
Waveforms
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Summary:Waveform measurement units (WMUs) are a new class of smart grid sensors. They capture synchro-waveforms , i.e., time-synchronized high-resolution voltage waveform and current waveform measurements. In this paper, we propose new methods to detect and classify power quality events in power distribution systems by using synchro-waveform measurements. The methods are built upon a novel graphical concept, called synchronized Lissajous curve . The proposed event detection and event classification methods work by analyzing the shape of the synchronized Lissajous curves during disturbances and events. The impact of challenging factors, such as the angle, the location, and other parameters of the event are discussed. We show that these challenges can be addressed if we treat the synchronized Lissajous curves as images , instead of as time series as in the raw synchronized waveform measurements. Hence, we can take advantage of the recent advancements in the field of image processing so as to capture the overall characterizing patterns in the shapes of the synchronized Lissajous curves. We develop a Convolutional Neural Network (CNN) method to classify the events, where the input is the synchronized Lissajous images. The effectiveness of the proposed event detection and classification methods is demonstrated through computer simulations, including hardware-in-the-loop simulations, and real-world field data. Multiple case studies verify the performance of the proposed methods. The proposed event detection method can accurately detect events, and identify the start time and the end time of each event. The proposed event classification method can classify power quality events with high accuracy. The proposed detection and classification methods do not require any prior knowledge about the network. They use data from as few as only two WMUs.
ISSN:1949-3053
1949-3061
DOI:10.1109/TSG.2022.3148757