Enhancing Cloud Security: A Multi-Factor Authentication and Adaptive Cryptography Approach Using Machine Learning Techniques

The rapid expansion of cloud computing underscores the critical need for advanced security measures to protect sensitive data on remote servers. Authentication is crucial for safeguarding these data. Despite various proposed methods, vulnerabilities persist. This article introduces a novel multi-fac...

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Vydáno v:IEEE open journal of the Computer Society Ročník 6; s. 392 - 402
Hlavní autoři: Sasikumar, K., Nagarajan, Sivakumar
Médium: Journal Article
Jazyk:angličtina
Vydáno: New York IEEE 2025
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Témata:
Adaptive cryptography
Algorithms
attack prediction
Authentication
Biometrics
Cloud computing
cloud security
Cryptography
Cybersecurity
dual encryption
dynamic encryption algorithms
Encryption
Fingerprint recognition
Fingerprint verification
Heuristic algorithms
hybrid CNN-transformer model
Machine learning
machine learning techniques
multi-factor authentication
Passwords
Prediction algorithms
Security
Spoofing
ISSN:2644-1268, 2644-1268
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Shrnutí:The rapid expansion of cloud computing underscores the critical need for advanced security measures to protect sensitive data on remote servers. Authentication is crucial for safeguarding these data. Despite various proposed methods, vulnerabilities persist. This article introduces a novel multi-factor authentication system integrated with a hybrid cryptographic framework that dynamically changes encryption algorithms using machine learning techniques based on an intrusion-detection system. The proposed system employs passwords, conditional attributes, and fingerprint authentication to derive the encryption key from fingerprint data. It uses a dual-encryption strategy that combines five algorithm pairs: AES + HMAC (SHA-256), ECC + HMAC (SHA-512), HMAC-MD5 + PBKDF2, Twofish + Argon2, and Blowfish + HMAC SHA3-256. A Hybrid CNN-transformer model predicts and classifies attacks by dynamically adjusting an encryption algorithm to secure the data. The framework exhibited strong resilience against brute force, spoofing, phishing, guessing, and impersonation attacks. The proposed model achieved a commendable accuracy of 96.8%, outperforming other models. Implementing this framework in a cloud authentication environment significantly enhances data confidentiality and protects against unauthorized access. This study highlights the potential of combining multi-factor authentication and adaptive cryptography to obtain robust cloud security solutions.
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ISSN:2644-1268
2644-1268
DOI:10.1109/OJCS.2025.3538557