Graph-Theory Based Digital Twin Modeling of Cascaded Multilevel Inverters
This paper presents the development and validation of a computation model of a cascaded multilevel power inverter as an initial step toward creating a high-fidelity digital twin. A preliminary overview of the cascaded multilevel inverter topology is provided, followed by introducing a mathematical modeling approach that uses graph theory to derive the system's nodal equations. The computation model is implemented in a programmable environment, and its output is compared to the MATALB/Simulink-based simulation, which serves as a reference for performance evaluation. The evaluation is performed using the mean square error (MSE) metric to quantify the accuracy of the proposed model. Results indicate a close agreement between the computation model and simulation data, confirming the model's potential for integration into future real-time digital twin architectures for power converter control and diagnostics.