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Editorial

Blockchain based Quantum Resistant Signature Algorithm for Data Integrity Verification in Cloud and Internet of Everything

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  • @ARTICLE{10.4108/eetsis.5488,
        author={Pranav Shrivastava and Bashir Alam and Mansaf Alam},
        title={Blockchain based Quantum Resistant Signature Algorithm for Data Integrity Verification in Cloud and Internet of Everything},
        journal={EAI Endorsed Transactions on Scalable Information Systems},
        volume={11},
        number={6},
        publisher={EAI},
        journal_a={SIS},
        year={2024},
        month={3},
        keywords={Data integrity verification, blind signature algorithm, lattice cryptography, puzzle optimization algorithm, blockchain, upgraded Merkle tree, vacuum filter, quantum resistant},
        doi={10.4108/eetsis.5488}
    }
    
  • Pranav Shrivastava
    Bashir Alam
    Mansaf Alam
    Year: 2024
    Blockchain based Quantum Resistant Signature Algorithm for Data Integrity Verification in Cloud and Internet of Everything
    SIS
    EAI
    DOI: 10.4108/eetsis.5488
Pranav Shrivastava1,*, Bashir Alam1, Mansaf Alam1
  • 1: Jamia Millia Islamia
*Contact email: pranav.paddy@gmail.com

Abstract

  INTRODUCTION: The processing and storage capacities of the Internet of Everything (IoE) platform are restricted, but the cloud can readily provide efficient computing resources and scalable storage. The Internet of Everything (IoE) has expanded its capabilities recently by employing cloud resources in multiple ways. Cloud service providers (CSP) offer storage resources where extra data can be stored. These methods can be used to store user data over the CSP while maintaining data integrity and security. The secure storage of data is jeopardized by concerns like malicious system damage, even though the CSP's storage devices are highly centralized. Substantial security advancements have been made recently as a result of using blockchain technology to protect data transported to networks. In addition, the system's inclusive efficacy is enhanced, which lowers costs in comparison to earlier systems. OBJECTIVES: The main objective of the study is to a blockchain-based data integrity verification scheme is presented to provide greater scalability and utilization of cloud resources while preventing data from entering the cloud from being corrupted. METHODS: In this paper, we propose a novel method of implementing blockchain in order to enhance the security of data stores in cloud. RESULTS: The simulations indicate that the proposed approach is more effective in terms of data security and data integrity. Furthermore, the comparative investigation demonstrated that the purported methodology is far more effective and competent than prevailing methodologies. CONCLUSIONS: The model evaluations demonstrated that the proposed approach is quite effective in data security.

Keywords
Data integrity verification, blind signature algorithm, lattice cryptography, puzzle optimization algorithm, blockchain, upgraded Merkle tree, vacuum filter, quantum resistant
Received
2023-12-20
Accepted
2024-03-14
Published
2024-03-20
Publisher
EAI
http://dx.doi.org/10.4108/eetsis.5488

Copyright © 2024 P. Shrivastava et al., licensed to EAI. This is an open access article distributed under the terms of the CC BYNC-SA 4.0, which permits copying, redistributing, remixing, transformation, and building upon the material in any medium so long as the original work is properly cited.

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