Efficient anomaly detection method for rooftop PV systems using big data and permutation entropy
This addresses the need for efficient fault detection in rooftop PV systems to improve safety and returns, but it is incremental as it applies an existing complexity measure to a new domain.
The paper tackles anomaly detection in rooftop PV systems by proposing a method using big data and weighted permutation entropy, tested on over 100 households in South Australia, where detected anomalies were confirmed to have real problems.
The number of rooftop photovoltaic (PV) systems has significantly increased in recent years around the globe, including in Australia. This trend is anticipated to continue in the next few years. Given their high share of generation in power systems, detecting malfunctions and abnormalities in rooftop PV systems is essential for ensuring their high efficiency and safety. In this paper, we present a novel anomaly detection method for a large number of rooftop PV systems installed in a region using big data and a time series complexity measure called weighted permutation entropy (WPE). This efficient method only uses the historical PV generation data in a given region to identify anomalous PV systems and requires no new sensor or smart device. Using a real-world PV generation dataset, we discuss how the hyperparameters of WPE should be tuned for the purpose. The proposed PV anomaly detection method is then tested on rooftop PV generation data from over 100 South Australian households. The results demonstrate that anomalous systems detected by our method have indeed encountered problems and require a close inspection. The detection and resolution of potential faults would result in better rooftop PV systems, longer lifetimes, and higher returns on investment.