September 19, 2024
Journal Article

Gray-Box Modeling for Distribution Systems with Inverter-Based Resources: Integrating Physics-Based and Data-Driven Approaches

Abstract

In this paper, we develop a novel gray-box modeling approach for distribution systems with inverter-based resources (IBRs). The proposed gray-box modeling method aims to improve estimation accuracy by taking advantages of both physics-based (white-box) and data-driven (black-box) modeling approaches. To this end, we utilize partial physical knowledge of the system, including the inverters’ structures and control diagrams, as well as the equivalent network model simplified through Kron reduction. The white-box model containing unknown parameters is then constructed with mathematical equations and an optimization-based method is subsequently employed to identify these unknown parameters within the white-box model. Next, the graybox modeling framework is then constructed by embedding the output variables of the white-box model into the input vector of a black-box model (represented using a neural network). Finally, the black-box section is trained using the collected input-output datasets and the gray-box model is then obtained. Furthermore, case studies demonstrate that our gray-box modeling approach effectively improves estimation accuracy compared to purely physics-based or data-driven methods.

Published: September 19, 2024

Citation

Zhang J., Y. Men, L. Ding, X. Lu, and W. Du. 2024. Gray-Box Modeling for Distribution Systems with Inverter-Based Resources: Integrating Physics-Based and Data-Driven Approaches. IEEE Transactions on Industry Applications 60, no. 4:5490-5498. PNNL-SA-193812. doi:10.1109/TIA.2024.3392710