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In today's digital landscape, when a myriad of products are widely available online, the critical necessity for authenticity, anonymity, and security above accessibility high-lights the importance of encryption with access management. This research paper proposes an advanced encryption approach designed to improve the security of overall resource admissions. In contrast to traditional techniques, our proposed solution makes use of Homomorphic Encryption-based approach combined with 'Role-Based Access Control' (RBAC) and 'eXtensible Access Connectivity Markup Language (XACML)'. This novel technology enables secure data storage within internet computers by utilizing cryptographic principles and a fast admission management mechanism. The suggested encryption approach combines classic homomorphic encryption procedures with a dynamic information distribution strategy, resulting in a strong barrier for sensitive data. Users gain the advantage of obtaining information in a secure and privacy-preserving manner by using this hybrid encryption technology. Notably, when compared to existing encryption approaches, the overall execution of our suggested solution is significantly more secure and efficient. This study adds to the expanding landscape of secure information storage and retrieval by seamlessly merging homomorphic encryption with RBAC, providing a more efficient and protective paradigm for managing online resources and protecting sensitive data.
Abinaya et al. (Fri,) studied this question.