Post-Quantum Digital Signatures for Enhanced Medical Image Security

Kumar Sekhar Roy; Shweta Singh; Preethi Srivathsa; Ruhul Amin Hazarika; Sk Mahmudul Hassan; K. Susheel Kumar

doi:10.1049/qtc2.70006

Post-Quantum Digital Signatures for Enhanced Medical Image Security

Kumar Sekhar Roy
, Shweta Singh^*
, Preethi Srivathsa
, Ruhul Amin Hazarika
, Sk Mahmudul Hassan
, K. Susheel Kumar

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Traditional encryption methods face significant challenges due to the rapid advancement of quantum computing, necessitating the use of quantum-resistant solutions. Cryptographic hash functions are used by Sphincs+, a stateless hash-based digital signature technique, to provide robust protection against quantum attacks. This research investigates the application of Sphincs+, alongside Dilithium and Falcon, to enhance the security of medical images, which are critical for diagnostic and therapeutic processes in healthcare. By utilising digital signatures for authentication and integrity verification, Sphincs+ mitigates risks associated with unauthorised tampering and data manipulation. The integration of Sphincs+ into medical imaging frameworks strengthens data security, ensuring long-term resilience against quantum-enabled threats while maintaining the reliability of healthcare records.

Original language	English
Article number	e70006
Journal	IET Quantum Communication
Volume	6
Issue number	1
DOIs	https://doi.org/10.1049/qtc2.70006
Publication status	Published - 01-01-2025

All Science Journal Classification (ASJC) codes

Theoretical Computer Science
Computer Science Applications
Computer Networks and Communications
Computational Theory and Mathematics
Electrical and Electronic Engineering

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10.1049/qtc2.70006

Cite this

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title = "Post-Quantum Digital Signatures for Enhanced Medical Image Security",

abstract = "Traditional encryption methods face significant challenges due to the rapid advancement of quantum computing, necessitating the use of quantum-resistant solutions. Cryptographic hash functions are used by Sphincs+, a stateless hash-based digital signature technique, to provide robust protection against quantum attacks. This research investigates the application of Sphincs+, alongside Dilithium and Falcon, to enhance the security of medical images, which are critical for diagnostic and therapeutic processes in healthcare. By utilising digital signatures for authentication and integrity verification, Sphincs+ mitigates risks associated with unauthorised tampering and data manipulation. The integration of Sphincs+ into medical imaging frameworks strengthens data security, ensuring long-term resilience against quantum-enabled threats while maintaining the reliability of healthcare records.",

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AU - Srivathsa, Preethi

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AU - Hassan, Sk Mahmudul

AU - Kumar, K. Susheel

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AB - Traditional encryption methods face significant challenges due to the rapid advancement of quantum computing, necessitating the use of quantum-resistant solutions. Cryptographic hash functions are used by Sphincs+, a stateless hash-based digital signature technique, to provide robust protection against quantum attacks. This research investigates the application of Sphincs+, alongside Dilithium and Falcon, to enhance the security of medical images, which are critical for diagnostic and therapeutic processes in healthcare. By utilising digital signatures for authentication and integrity verification, Sphincs+ mitigates risks associated with unauthorised tampering and data manipulation. The integration of Sphincs+ into medical imaging frameworks strengthens data security, ensuring long-term resilience against quantum-enabled threats while maintaining the reliability of healthcare records.

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Post-Quantum Digital Signatures for Enhanced Medical Image Security

Abstract

All Science Journal Classification (ASJC) codes

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