PSGformer: A novel multivariate net load forecasting model for the smart grid

Smart grid intelligently transforms modern power system through the introduction of various advanced techniques, promoting the growth of distributed renewable energy sources and improving the efficiency of load management. The construction of smart grid recognizes the importance of net load forecasting, which represents the difference between the demanded load and the renewable energy generation, and has a significant impact on power system monitoring and control. Recently, some Transformer -based models have shown excellent performances in load forecasting. However, most of them perform weakly in face of net load forecasting due to the lack of emphasis on the specific trend variations and the inter -feature dependencies in cyclical temporal patterns. To address the two issues, we present the PSGformer that consists of multiscale series decomposition, seasonal module and trend module, which can focus on unique properties that affect the accuracy of net load forecasting by processing different components obtained from the series decomposition. The seasonal module seamlessly introduces graph attention network into the Transformer to compensate for the capability of capturing local inter -feature dependencies. The trend module adopts a new segment -wise iterative approach to capture trend patterns. Compared to the six baseline models, PSGformer has higher forecasting accuracy and stability on four load datasets from different countries.