Work place: Postdoctoral Fellow, Mediterranea International Centre for Human Rights Research, Mediterranea University of Reggio Calabria
E-mail: indrajit.nitdurgapurwb@gmail.com
Website:
Research Interests: Scientific Visualization, Virtual Reality
Biography
Indrajit Patra completed his Ph.D. in 2019 from NIT, Durgapur, West Bengal, India. He has published several research articles in various international journals both on science and humanities and has written and edited five books. His primary areas of interest are posthumanism, transhumanism, virtual reality, scientific advancements and their impacts on society, teaching and learning of English as a Foreign and Second Language, psychoanalysis, and epic poetry etc.
By Raghavendra Kulkarni Indrajit Patra Neelam Sharma Tribhuwan Kumar Avula Pavani M. Kavitha
DOI: https://doi.org/10.5815/ijmecs.2024.01.06, Pub. Date: 8 Feb. 2024
Web-based learning systems have quickly developed, by giving students a broader access to wide range of courses. However, when presented with a huge number of courses, it might be difficult for users to rapidly discover the ones they are interested in, from a large amount of online educational resources. As a result, a course recommendation system is crucial to increase users' learning benefit. Presently, numerous online learning platforms have developed a variety of recommender systems using conventional data mining techniques. Still, these methods have several shortcomings, like adaptability and sparsity. To solve this problem, this study provides a deep learning based English course recommendation system with the extraction of features using a dual channel based capsule network (CapsNet). This network extracts all the important features about the courses and learners and suggests suitable courses for the learners. To evaluate the proposed model’s performance, several investigations are performed on a real-world dataset (XuetangX) and outperforms existing recommendation approaches with an average of 91% precision, 45% recall, 55% f1-score, 0.798 RMSE, and 0.671 MSE. According to the experimental findings, the proposed model provides better and more reliable recommendation performance than the conventional approaches. According to the experimental findings, the proposed model provides better and more reliable recommendation performance than the conventional approaches.
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