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A Well-Organized Safeguarded Access on Key Propagation by Malleable Optimization in Blend With Double Permutation

A Well-Organized Safeguarded Access on Key Propagation by Malleable Optimization in Blend With Double Permutation

A. Sathish, S. Ravimaran, S. Jerald Nirmal Kumar
Copyright: © 2020 |Volume: 17 |Issue: 1 |Pages: 21
ISSN: 1545-7362|EISSN: 1546-5004|EISBN13: 9781799804895|DOI: 10.4018/IJWSR.2020010103
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MLA

Sathish, A., et al. "A Well-Organized Safeguarded Access on Key Propagation by Malleable Optimization in Blend With Double Permutation." IJWSR vol.17, no.1 2020: pp.43-63. http://doi.org/10.4018/IJWSR.2020010103

APA

Sathish, A., Ravimaran, S., & Kumar, S. J. (2020). A Well-Organized Safeguarded Access on Key Propagation by Malleable Optimization in Blend With Double Permutation. International Journal of Web Services Research (IJWSR), 17(1), 43-63. http://doi.org/10.4018/IJWSR.2020010103

Chicago

Sathish, A., S. Ravimaran, and S. Jerald Nirmal Kumar. "A Well-Organized Safeguarded Access on Key Propagation by Malleable Optimization in Blend With Double Permutation," International Journal of Web Services Research (IJWSR) 17, no.1: 43-63. http://doi.org/10.4018/IJWSR.2020010103

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Abstract

With the rapid developments occurring in cloud computing and services, there has been a growing trend of using the cloud for large-scale data storage. This has led to a major security dispute on data handling. Thus, the process can be overcome by utilizing an efficient shielded access on a key propagation (ESAKP) technique along with an adaptive optimization algorithm for password generation and performing double permutation. The password generation is done by adaptive ant lion optimization (AALO) which tackles the problem of ineffiency. This build has stronger security which needs an efficient selection property by eliminating the worst fit in each iteration. The optimized password is utilized by an adaptive vignere cipher for efficient key generation in which adaptiveness is employed to prevent the dilemma of choosing the first letter of alphabet which in turn reduces the computation time and improves the security. Additionally, there is a need to encrypte the symmetric key asymmetrically with a Elliptic Curve-Diffie Hellman algorithm (EC-DH) with a double stage permutation which produces a scrambling form of data adding security to the data.

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