Personalized Feedback in Massive Open Online Courses: Harnessing the Power of LangChain and OpenAI API
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Published:2024-05-16
Issue:10
Volume:13
Page:1960
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ISSN:2079-9292
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Container-title:Electronics
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language:en
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Short-container-title:Electronics
Author:
Morales-Chan Miguel1ORCID, Amado-Salvatierra Hector R.1ORCID, Medina José Amelio2ORCID, Barchino Roberto2ORCID, Hernández-Rizzardini Rocael1, Teixeira António Moreira3
Affiliation:
1. GES Department, Universidad Galileo, Guatemala City 01010, Guatemala 2. Computer Science Department, Universidad de Alcalá, 28801 Alcalá de Henares, Spain 3. Department of Education and Distance Learning, Universidade Aberta de Portugal, 1250-100 Lisboa, Portugal
Abstract
Studies show that feedback greatly improves student learning outcomes, but achieving this level of personalization at scale is a complex task, especially in the diverse and open environment of Massive Open Online Courses (MOOCs). This research provides a novel method for using cutting-edge artificial intelligence technology to enhance the feedback mechanism in MOOCs. The main goal of this research is to leverage AI’s capabilities to automate and refine the MOOC feedback process, with special emphasis on courses that allow students to learn at their own pace. The combination of LangChain—a cutting-edge framework specifically designed for applications that use language models—with the OpenAI API forms the basis of this work. This integration creates dynamic, scalable, and intelligent environments that can provide students with individualized, insightful feedback. A well-organized assessment rubric directs the feedback system, ensuring that the responses are both tailored to each learner’s unique path and aligned with academic standards and objectives. This initiative uses Generative AI to enhance MOOCs, making them more engaging, responsive, and successful for a diverse, international student body. Beyond mere automation, this technology has the potential to transform fundamentally how learning is supported in digital environments and how feedback is delivered. The initial results demonstrate increased learner satisfaction and progress, thereby validating the effectiveness of personalized feedback powered by AI.
Reference29 articles.
1. Radford, A., Narasimhan, K., Salimans, T., and Sutskever, I. (2024, February 12). Improving Language Understanding by Generative Pre-Training. Available online: https://openai.com/index/language-unsupervised. 2. Devlin, J., Chang, M.W., Lee, K., and Toutanova, K. (2018). Bert: Pre-training of deep bidirectional transformers for language understanding. arXiv. 3. Johnson, K. (2024, February 12). OpenAI Debuts DALL-E for Generating Images from Text. Available online: https://venturebeat.com/business/openai-debuts-dall-e-for-generating-images-from-text/. 4. Rai, L., Deng, C., and Liu, F. (2023, January 21–24). Developing Massive Open Online Course Style Assessments using Generative AI Tools. Proceedings of the 2023 IEEE 6th International Conference on Electronic Information and Communication Technology (ICEICT), Qingdao, China. 5. Qadir, J. (2023, January 1–4). Engineering Education in the Era of ChatGPT: Promise and Pitfalls of Generative AI for Education. Proceedings of the 2023 IEEE Global Engineering Education Conference (EDUCON), Kuwait, Kuwait.
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