Abstract
The complexity of operating power systems requires the development of methods capable of assisting in system monitoring. The Voltage Stability Margin or Load Margin (LM) represents an index that informs how much the system’s load level can increase without causing a case of instability. The LM is determined using voltage stability criteria, but low-frequency modes can arise with increasing load and can cause system instability. This article proposes a method based on Recurrent Neural Networks (RNNs) for monitoring LM. Furthermore, a metaheuristic called Greylag Goose Optimization is applied to choose the system buses whose measurements will be RNN inputs.
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