Research and Applications: Emerging Technologies (e-ISSn:3048-4766)

This study presents a novel strategy for implementing a blockchain-based decentralized university system to address the inefficiencies and transparency issues common to traditional university systems. Decentralizing academic records is the main goal, which will also provide better data security, transparency, and tamper-proof certificate validation. Using blockchain technology, the paper intends to introduce advanced academic features like grade assignment, real-time communication, and course management, all while enhancing security with strong user authentication and data protection mechanisms. Furthermore, the paper aims to create a system for validating certificates that is impervious to tampering, which will stop fraudulent claims and promote academic credentials. This paper aims to improve blockchain integration and solve scalability issues so that education becomes more transparent, safe, and available to all parties involved in the future.

Kyun, S., Yi, J., & Jang, J. (2021). A decentralized approach to education powered by blockchain technology. Asia-pacific Journal of Convergent Research Interchange, 7(7), 131-141.

N. Chowdhury, M. Ramachandran, A. Third, A. Mikroyannidis, M. Bachler, J. Domingue, Towards A Blockchain-based Decentralised Educational Landscape, The Twelfth International Conference on Mobile, Hybrid, and On-line Learning, (2020), November 21-25, Valencia, Spain

Ashish Kumar Dass, Manjushree Nayak, Sudhir Ranjan Pattanaik, & Asish Panigrahi. (2023). Cloud Computing in Industrial Automation Systems and its Future. Research and Applications: Embedded System, 6(3), 8–18.

Ashish Kumar Dass, Ashutosh Parida, Subratansu Panigrahi, & Soumya Kanta Moharana. (2023). Virtualization in Cloud Computing: Transforming Infrastructure and Enhancing Efficiency. Research and Applications: Emerging Technologies, 5(3), 26–40.

Mishra, T. K., Kumar, S., & Dass, A. K. (2018, December). An Enhanced Path Planning Model for Anchor-Free Localization in Wireless Sensor Networks. In 2018 International Conference on Information Technology (ICIT) (pp. 204-209). IEEE Computer Society.

B. S. Gouda, A. K. Dass and K. L. Narayana, "A comprehensive performance analysis of energy efficient routing protocols in different traffic based mobile ad-hoc networks," 2013 International Mutli-Conference on Automation, Computing, Communication, Control and Compressed Sensing (iMac4s), Kottayam, India, 2013, pp. 306-312,

Dass, A. K., Das, S., Pattnaik, S. R., & Nayak, M. (2022). NODE LOCALIZATION IN UWSN USING AUV WITH ANCHOR-FREE OPTIMAL PATH PLANNING MODEL. Journal of Harbin Institute of Technology, 54(10), 2022.

Anisha Mishra, Alokita Sahu, Ashish Kumar Dass, & Manjushree Nayak. (2023). Automatic Car Parking Assistance using Arduino. Recent Trends in Information Technology and Its Application, 7(1), 10–22.

Manjushree Nayak, & Ashish Kumar Dass. (2023). GSM and Arduino based Smart Home Safety and Security System. Recent Trends in Information Technology and Its Application, 6(1), 1–6.

Smith, C., Coward, C., Hess, M. R., Hofman, D. L., Kim, B., & Norman, A. (2019). Block-chain Reaction. American Libraries, 50(3/4), 26-33.