@Article{iasc.2023.028659, AUTHOR = {P. Prabhu, P. Valarmathie, K. Dinakaran}, TITLE = {A Feature Learning-Based Model for Analyzing Students’ Performance in Supportive Learning}, JOURNAL = {Intelligent Automation \& Soft Computing}, VOLUME = {36}, YEAR = {2023}, NUMBER = {3}, PAGES = {2989--3005}, URL = {http://www.techscience.com/iasc/v36n3/51877}, ISSN = {2326-005X}, ABSTRACT = {Supportive learning plays a substantial role in providing a quality education system. The evaluation of students’ performance impacts their deeper insight into the subject knowledge. Specifically, it is essential to maintain the baseline foundation for building a broader understanding of their careers. This research concentrates on establishing the students’ knowledge relationship even in reduced samples. Here, Synthetic Minority Oversampling TEchnique (SMOTE) technique is used for pre-processing the missing value in the provided input dataset to enhance the prediction accuracy. When the initial processing is not done substantially, it leads to misleading prediction accuracy. This research concentrates on modelling an efficient classifier model to predict students’ performance. Generally, the online available student dataset comprises a lesser amount of sample, and k-fold cross-validation is performed to balance the dataset. Then, the relationship among the students’ performance (features) is measured using the auto-encoder. The stacked Long Short Term Memory () is used to learn the previous feedback connection. The stacked model handles the provided data and the data sequence for understanding the long-term dependencies. The simulation is done in the MATLAB 2020a environment, and the proposed model shows a better trade-off than the existing approaches. Some evaluation metrics like prediction accuracy, sensitivity, specificity, AUROC, F1-score and recall are evaluated using the proposed model. The performance of the model is compared with existing approaches. The proposed model gives 89% accuracy, 83% precision, 86% recall, and 87% F-score. The proposed model outperforms the existing systems in terms of the earlier metrics.}, DOI = {10.32604/iasc.2023.028659} }