Adaptive Blockchain Security Architecture for Medical Data Transmission Using Deep Learning

Galadriel Balasingam

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Published: Jun 2, 2026

Keywords:

Blockchain Technology, Medical Data Transmission, Deep Learning, Healthcare Security, Electronic Health Records

Galadriel Balasingam

Department of Electrical and Computer Engineering, Caspian Institute of Industrial Engineering, Iran

Abstract

The rapid digitization of healthcare systems has significantly increased the volume of medical data generated, transmitted, and stored across distributed healthcare infrastructures. Electronic Health Records (EHRs), wearable healthcare devices, telemedicine platforms, Internet of Medical Things (IoMT) systems, and cloud-based healthcare applications continuously exchange sensitive patient information that requires strong security, privacy, and integrity protection. However, conventional healthcare communication systems remain vulnerable to cyber threats such as unauthorized access, data tampering, identity spoofing, ransomware attacks, and privacy breaches. Blockchain technology has emerged as a promising solution for securing healthcare data through decentralization, immutability, transparency, and cryptographic protection. Nevertheless, traditional blockchain systems often face challenges related to scalability, adaptive threat detection, and intelligent security management. To address these limitations, this research proposes an Adaptive Blockchain Security Architecture for Medical Data Transmission Using Deep Learning (ABSA-MDTDL). The proposed framework integrates blockchain-based medical data management, deep learning-driven threat detection, adaptive security analytics, smart contract validation, and intelligent access control mechanisms.

How to Cite

Balasingam, G. (2026). Adaptive Blockchain Security Architecture for Medical Data Transmission Using Deep Learning. International Journal on Advanced Computer Theory and Engineering, 15(2), 65–71. Retrieved from https://journals.mriindia.com/index.php/ijacte/article/view/3320

Issue

Vol. 15 No. 2 (2026)

Section

Articles

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