Blockchain-Enabled Decentralized Identity Management: A Novel Framework for Microservices Architecture
DOI:
https://doi.org/10.32628/CSEIT251112209Keywords:
Blockchain technology, Microservices architecture, Decentralized identity management, Smart contracts, Identity authenticationAbstract
This article presents a novel framework for implementing decentralized identity management in microservices architecture using blockchain technology. The proposed solution addresses the inherent challenges of traditional centralized identity management systems by leveraging distributed ledger technology and smart contracts to create a secure, transparent, and user-centric authentication mechanism. The framework incorporates comprehensive privacy controls and consent management features while ensuring compliance with regulatory requirements across various industries. Through extensive evaluation across multiple use cases in healthcare, financial services, and government sectors, the results demonstrate enhanced security, improved scalability, and better user privacy control compared to conventional approaches. The article suggests that blockchain-based identity management can significantly reduce the risk of security breaches while providing a more robust and flexible authentication mechanism for modern distributed systems. This article contributes to the growing body of knowledge in distributed systems security and provides practical insights for organizations looking to implement decentralized identity management solutions.
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References
Chatterjee, Pushpalika. (2024). "Emerging Security Challenges in The Microservices Application". International Research Journal, Columbus, Ohio, United States. Retrieved from https://www.irejournals.com/formatedpaper/1706559.pdf
Kumar, Ojas., & Narang, Ashima. (2025). "Securing Microservices: Challenges and Solutions". International Journal of Innovative Research in Computer Science and Technology (IJIRCST), 13(1), 58-61. Retrieved from https://ijircst.org/DOC/8-Securing-Microservices-Challenges-and-Solutions.pdf
Imteaj, Ahmed., Amini, M. Hadi., & Pardalos, Panos M. (2021). "Toward Smart Contract and Consensus Mechanisms of Blockchain". In SpringerBriefs in Computer Science (pp. 15-28). SpringerLink. Retrieved from https://link.springer.com/chapter/10.1007/978-3-030-75025-1_2
Liu, Zhixiang., Feng, Wenlong., Zhang, Yu., & Zhu, Chengcheng. (2023). "Research on the Architecture of Transactional Smart Contracts Based on Blockchains". Electronics, 12(18), 3923. Retrieved from https://www.mdpi.com/2079-9292/12/18/3923
Karia, Jignesh. (2021). "Integration Patterns in Microservices World". DZone. Retrieved from https://dzone.com/articles/integration-patterns-in-microservices-world
Satybaldy, Abylay., Hasselgren, Anton., & Nowostawski, Mariusz. (2022). "Decentralized Identity Management for E-Health Applications: State-of-the-Art and Guidance for Future Work". Blockchain in Healthcare Today, 5, 195. Retrieved from https://www.blockchainhealthcaretoday.com/index.php/journal/article/view/195
Javed, Ibrahim Tariq., Alharbi, Fares., Bellaj, Badr., Margaria, Tiziana., Crespiand, Noel., & Qureshi, Kashif Naseer. (2021). "Health-ID: A Blockchain-Based Decentralized Identity Management for Remote Healthcare". Healthcare, 9(6), 712. Retrieved from https://www.mdpi.com/2227-9032/9/6/712
Voege, Peter., & Ouda, Abdelkader. (2021). "A Study on Natural Language Chatbot-based Authentication Systems". IEEE Xplore. Retrieved from https://ieeexplore.ieee.org/document/9615767
Jia, Yetao., Zhuang, Honglin., Lin, Zhechao., & Meng, Yangyang. (2021). "Machine Learning for Software Vulnerability Analysis: A Survey", 2022. IEEE Xplore. Retrieved from https://ieeexplore.ieee.org/abstract/document/9750464
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