Envision EdTech: Revolutionizing Intelligent Education through AI and Innovation for a Smarter Tomorrow


Authors : Pooja Garai

Volume/Issue : Volume 10 - 2025, Issue 4 - April

Google Scholar : https://tinyurl.com/mr247hbr

Scribd : https://tinyurl.com/c3vvm4h3

DOI : https://doi.org/10.38124/ijisrt/25apr1980

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Abstract : This paper introduces EnvisionEdTech: Revolutionizing Intelligent Education Through AI and Innovation for a Smarter Tomorrow, an advanced AI-powered educational platform that delivers adaptive, inclusive, and interactive learning experiences. The system is architected to integrate core modules such as intelligent lecture summarization using NLP and transformer-based models (BERT, T5), AI-driven career guidance using decision trees, random forests, and K-means clustering on historical academic and aptitude data, and dynamic exam question generation using NLG techniques and Bloom’s Taxonomy classification.The real-time interactive doubt-solving module is powered by WebRTC and Socket.IO, enabling low-latency peer and mentor communication, supported by NLP-based semantic search to suggest relevant content during chats. Virtual science experiments are simulated using 3D libraries (Three.js) and OpenCV, creating immersive, interactive lab experiences. A robust plagiarism detection system leverages semantic similarity comparison using sentence embeddings and cosine similarity via Sentence-BERT and spaCy pipelines.The backend is implemented in Node.js and Express.js, with RESTful APIs and JWT-based authentication for secure, scalable operations. AI services are deployed using TensorFlow, PyTorch, and orchestrated with Docker and Kubernetes for containerized microservices. The frontend is built using React.js for web and React Native for mobile, styled using Tailwind CSS, and follows a responsive, component-based architecture. Real-time data analytics and performance dashboards are powered by Tableau and Power BI, processing data pipelined via Apache Kafka and MongoDB Atlas.Deployment is cloud-agnostic, supporting AWS (S3, EC2, Lambda), GCP (Firebase, BigQuery), and Microsoft Azure (App Services, Blob Storage) for flexibility and high availability. CI/CD pipelines using GitHub Actions and Jenkins automate build, test, and deployment workflows. The system is thoroughly tested using Selenium (UI automation), Postman (API testing), and Jest (unit testing), ensuring robustness and reliability.This unified platform empowers students, educators, and parents by offering intelligent educational assistance, career insights, and progress analytics, driving academic excellence and holistic development.

Keywords : AI-Powered Education, Intelligent Career Guidance, NLP in Education, Lecture Summarization, Question Generation, Personalized Learning, WebRTC Education Tools, Virtual Labs, Real-Time Collaboration, Educational Analytics.

References :

    1. Potkonjak, Veljko, Michael Gardner, Victor Callaghan, Pasi Mattila, Christian Guetl, Vladimir M. Petrović, and Kosta Jovanović. "Virtual laboratories for education in science, technology, and engineering: A review." Computers & Education 95 (2016): 309-327.
    2. T. N. T. A. Rahim, Z. A. Aziz, R. H. A. Rauf and N. Shamsudin, "Automated exam question generator using genetic algorithm," 2017 IEEE Conference on e-Learning, e-Management and e-Services (IC3e), Miri, Malaysia, 2017, pp. 12-17, doi: 10.1109/IC3e.2017.8409231.
    3. M. Fatangare, R. Pangare, S. Dorle, U. Biradar and K. Kale, "Android based exam paper generator (Android based E-PAGE)," 2018 2nd International Conference on Inventive Systems and Control (ICISC), Coimbatore, India, 2018, pp. 881-884, doi: 10.1109/ICISC.2018.8398926.
    4. Aljuhani, K., Sonbul, M., Althabiti, M. et al. Creating a Virtual Science Lab (VSL): the adoption of virtual labs in Saudi schools. Smart Learn. Environ. 5, 16 (2018). https://doi.org/10.1186/s40561-018-0067-9
    5. Lyu Zhijian, Jiang Shaohua, Liang Yigao and Gao Min, Hunan Normal University, C3rd International Conference on Data Mining and Machine Learning (DMML 2022), April 23~24, 2022, Copenhagen, Denmark Volume Editors : David C. Wyld, Dhinaharan Nagamalai (Eds)  ISBN : 978-1-925953-66-4
    6. Wajcman, Judy (2019) The digital architecture of time management. Science, Technology and Human Values, 44 (2). 315 - 337. ISSN 0162-2439
    7. Xia, R. E., Sun, Y., & Zhang, F. (2020, October). Do8Now: An Intelligent Mobile Platform for Time Management using Social Computing and Machine Learning. In CS & IT Conference Proceedings (Vol. 10, No. 12). CS & IT Conference Proceedings.
    8. L. Chen, P. Chen and Z. Lin, "Artificial Intelligence in Education: A Review," in IEEE Access, vol. 8, pp. 75264-75278, 2020, doi: 10.1109/ACCESS.2020.2988510.
    9. Zheng, Tongya, Gang Chen, Xinyu Wang, Chun Chen, Xingen Wang, and Sihui Luo. "Real-time intelligent big data processing: technology, platform, and applications." Science China Information Sciences 62 (2019): 1-12.
    10. Hamed, Ghadeer, and Ahmad Aljanazrah. "The effectiveness if using virtual experiments on students’ learning in the general physics lab." (2020).
    11. Demirel, Elif Tokdemir. "The Use and Perceptions Towards AI Tools For Academic Writing Among University Students." Innovations in Language Teaching Journal 1, no. 1 (2024): 1-20.
    12. J. Skrebeca, P. Kalniete, J. Goldbergs, L. Pitkevica, D. Tihomirova and A. Romanovs, "Modern Development Trends of Chatbots Using Artificial Intelligence (AI)," 2021 62nd International Scientific Conference on Information Technology and Management Science of Riga Technical University (ITMS), Riga, Latvia, 2021, pp. 1-6, doi: 10.1109/ITMS52826.2021.9615258.
    13. Faiz, Muhammad Asif, and Hina Fazil. "The Benefits of Artificial Intelligence Mobile Applications in Improving Learning for Children with Intellectual Disabilities: A Pilot Study Perspectives from Special Education Teachers." Al-Mahdi Research Journal (MRJ) 5, no. 5 (2024): 302-313.
    14. Li, Yu, and Yuetong Gao. "Research on Portable Intelligent Terminal and APP Application Analysis and Intelligent Monitoring Method of College Students' Health Status." EAI Endorsed Transactions on Pervasive Health and Technology 10 (2024).
    15. N. Sandu and E. Gide, "Adoption of AI-Chatbots to Enhance Student Learning Experience in Higher Education in India," 2019 18th International Conference on Information Technology Based Higher Education and Training (ITHET), Magdeburg, Germany, 2019, pp. 1-5, doi: 10.1109/ITHET46829.2019.8937382.
    16. Rathore, B., 2023. Future of AI & generation alpha: ChatGPT beyond boundaries. Eduzone: International Peer Reviewed/Refereed Multidisciplinary Journal, 12 (1), 63–68 [online]
    17. Eslit, Edgar. "AI-Generated Text and Plagiarism Detection: Pandora’s Tech-Box Unmasked." (2025).
    18. Ibrahim, Karim. "Using AI-based detectors to control AI-assisted plagiarism in ESL writing:“The Terminator Versus the Machines”." Language Testing in Asia 13, no. 1 (2023): 46.
    19. G. -G. Lee and X. Zhai, "Using ChatGPT for Science Learning: A Study on Pre-service Teachers' Lesson Planning," in IEEE Transactions on Learning Technologies, vol. 17, pp. 1643-1660, 2024, doi: 10.1109/TLT.2024.3401457.
    20. M. Ghuge, T. Kamble, A. Mandrawliya, A. Kumari and V. Raikwar, "Envisioning Tomorrow: AI Powered Career Counseling," 2023 3rd International Conference on Innovative Mechanisms for Industry Applications (ICIMIA), Bengaluru, India, 2023, pp. 377-383, doi: 10.1109/ICIMIA60377.2023.10426016.
    21. Narayanee, Ms NP Shangara. "AI BASED PLAGIARISM CHECKER."
    22. Elali, Faisal R., and Leena N. Rachid. "AI-generated research paper fabrication and plagiarism in the scientific community." Patterns 4, no. 3 (2023).
    23. Voronkova, Valentyna, Olga Kyvliuk, and Vitalina Nikitenko. "The concept of smart education as a factor in enhancing digitalization and intellectualization." Prospective directions of scientific and practical activity: collective monograph (2023): 91-110.
    24. Joshi, Ishika, Ritvik Budhiraja, Harshal Dev, Jahnvi Kadia, Mohammad Osama Ataullah, Sayan Mitra, Harshal D. Akolekar, and Dhruv Kumar. "ChatGPT in the Classroom: An Analysis of Its Strengths and Weaknesses for Solving Undergraduate Computer Science Questions." In Proceedings of the 55th ACM Technical Symposium on Computer Science Education V. 1, pp. 625-631. 2024.
    25. Javed, Haseeb, Hafiz Abdul Muqeet, Amirhossein Danesh, Atiq Ur Rehman, Tahir Javed, and Amine Bermak. "Impact of AI and Dynamic Ensemble Techniques in Enhancing Healthcare Services: Opportunities and Ethical Challenges." IEEE Access (2024).
    26. Y. Rong et al., "Towards Human-Centered Explainable AI: A Survey of User Studies for Model Explanations," in IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 46, no. 4, pp. 2104-2122, April 2024, doi: 10.1109/TPAMI.2023.3331846.
    27. Y. Wang, J. Wu, F. Chen, Z. Wang, J. Li, and L. Wang, "Empirical Assessment of AI-Powered Tools for Vocabulary Acquisition in EFL Instruction," in IEEE Access, vol. 12, pp. 131892-131905, 2024, doi: 10.1109/ACCESS.2024.3446657.
    28. Li, Yu, and Yuetong Gao. "Research on Portable Intelligent Terminal and APP Application Analysis and Intelligent Monitoring Method of College Students' Health Status." EAI Endorsed Transactions on Pervasive Health and Technology 10 (2024).
    29. S. Oh, "Evaluating Mathematical Problem-Solving Abilities of Generative AI Models: Performance Analysis of o1-preview and gpt-4o Using the Korean College Scholastic Ability Test," in IEEE Access, vol. 13, pp. 1227-1235, 2025, doi: 10.1109/ACCESS.2024.3523703.
    30. K. Li, B. P. L. Lau, X. Yuan, W. Ni, M. Guizani and C. Yuen, "Toward Ubiquitous Semantic Metaverse: Challenges, Approaches, and Opportunities," in IEEE Internet of Things Journal, vol. 10, no. 24, pp. 21855-21872, 15 Dec.15, 2023, doi: 10.1109/JIOT.2023.3302159.
    31. Krishna,  A., Satheesh,  A., PR,  P., Thomas,  B., Gopi,  A., & Jose,  J. (2024). AI-Driven Personalized Learning: A Comprehensive Survey of Chatbot Applications in Education and Training. Preprints. https://doi.org/10.20944/preprints202412.1240.v1
    32. Hardaker, G. and Glenn, L.E. (2025), "Artificial intelligence for personalized learning: a systematic literature review", International Journal of Information and Learning Technology, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/IJILT-07-2024-0160

This paper introduces EnvisionEdTech: Revolutionizing Intelligent Education Through AI and Innovation for a Smarter Tomorrow, an advanced AI-powered educational platform that delivers adaptive, inclusive, and interactive learning experiences. The system is architected to integrate core modules such as intelligent lecture summarization using NLP and transformer-based models (BERT, T5), AI-driven career guidance using decision trees, random forests, and K-means clustering on historical academic and aptitude data, and dynamic exam question generation using NLG techniques and Bloom’s Taxonomy classification.The real-time interactive doubt-solving module is powered by WebRTC and Socket.IO, enabling low-latency peer and mentor communication, supported by NLP-based semantic search to suggest relevant content during chats. Virtual science experiments are simulated using 3D libraries (Three.js) and OpenCV, creating immersive, interactive lab experiences. A robust plagiarism detection system leverages semantic similarity comparison using sentence embeddings and cosine similarity via Sentence-BERT and spaCy pipelines.The backend is implemented in Node.js and Express.js, with RESTful APIs and JWT-based authentication for secure, scalable operations. AI services are deployed using TensorFlow, PyTorch, and orchestrated with Docker and Kubernetes for containerized microservices. The frontend is built using React.js for web and React Native for mobile, styled using Tailwind CSS, and follows a responsive, component-based architecture. Real-time data analytics and performance dashboards are powered by Tableau and Power BI, processing data pipelined via Apache Kafka and MongoDB Atlas.Deployment is cloud-agnostic, supporting AWS (S3, EC2, Lambda), GCP (Firebase, BigQuery), and Microsoft Azure (App Services, Blob Storage) for flexibility and high availability. CI/CD pipelines using GitHub Actions and Jenkins automate build, test, and deployment workflows. The system is thoroughly tested using Selenium (UI automation), Postman (API testing), and Jest (unit testing), ensuring robustness and reliability.This unified platform empowers students, educators, and parents by offering intelligent educational assistance, career insights, and progress analytics, driving academic excellence and holistic development.

Keywords : AI-Powered Education, Intelligent Career Guidance, NLP in Education, Lecture Summarization, Question Generation, Personalized Learning, WebRTC Education Tools, Virtual Labs, Real-Time Collaboration, Educational Analytics.

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