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![Figure 1. Example illustration of SINDy algorithm [3].](profile/Reza-Saeed-Kandezy-2/publication/375253105/figure/fig1/AS:11431281202759559@1699017222219/Example-illustration-of-SINDy-algorithm-3_Q320.jpg)
The complexity of modern power grids, exacerbated by integrating diverse energy sources, espe-cially inverter-based resources (IBRs), presents a significant challenge to grid operation and plan-ning since linear models fail to capture the intricate IBR dynamics. This study employs the Sparse Identification of Nonlinear Dynamics (SINDy) method to br...
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Context 1
... bus in the IEEE 15-bus system has a unique set of parameters and attributes and is connected to neighboring buss via branches characterized by specific impedance, which govern the dynamics of power flow among the interconnected buses. Table 1 provides a comprehensive overview of the network configuration and branch parameters of the IEEE 15-bus system. This investigation explores a comprehensive set of power system conditions, encompassing both abrupt changes (faults) and gradual changes (load variations), in the context of conventional SG and IBRs. ...Context 2
... bus in the IEEE 15-bus system has a unique set of parameters and attributes and is connected to neighboring buss via branches characterized by specific impedance, which govern the dynamics of power flow among the interconnected buses. Table 1 provides a comprehensive overview of the network configuration and branch parameters of the IEEE 15-bus system. This investigation explores a comprehensive set of power system conditions, encompassing both abrupt changes (faults) and gradual changes (load variations), in the context of conventional SG and IBRs. ...