International Journal of Renewable Energy Research-IJRER

Electric power systems are critical infrastructures that require continuous monitoring and protection to ensure reliable operation. Fault detection and protection play a crucial role in maintaining the stability and integrity of power components and systems. This research paper presents a comprehensive approach to enhancing fault detection and protection techniques in electric power systems by integrating Artificial Intelligence (AI). The proposed model leverages AI-driven techniques, including Deep Forest, Support Vector Machines (SVM), and Neural Networks (NN), for effective fault detection and protection. Deep Forest serves as a feature extractor, capturing informative representations of fault data, while SVM and NN classifiers ensure accurate fault type classification and decision-making. Extensive experiments and evaluations demonstrate the hybrid model's superior performance, achieving 98.57% accuracy and highlighting its potential to advance fault detection and protection in electric power systems.