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Hybridized data encoding based encryption and Diffie Hellman decryption for security enhancement
Information security is extremely important because the modification and interception of the data can lead to loss of data integrity, confidentiality, and availability. The encryption process is a critical component of classic standard encryption techniques such as advanced encryption, standard bloc...
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| Published in: | Knowledge-based systems 2024-12, Vol.306, p.112653, Article 112653 |
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| Main Authors: | , , , , |
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| Language: | English |
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| cites | cdi_FETCH-LOGICAL-c185t-61dc3643f6d2cb37c676081e49fa3aaa611252295d34f77b7db835eac8b5c8d93 |
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| container_start_page | 112653 |
| container_title | Knowledge-based systems |
| container_volume | 306 |
| creator | Vangapandu, Prasad Surendra, Talari Ramineni, Chudamani Madhavi, M. Radha Kishore, R. Hari |
| description | Information security is extremely important because the modification and interception of the data can lead to loss of data integrity, confidentiality, and availability. The encryption process is a critical component of classic standard encryption techniques such as advanced encryption, standard block ciphers, and data encryption standards. The traditional algorithm requires increased power consumption and memory. Therefore, there is a need to develop an efficient cryptographic operation to promote better security. The encryption process is performed using the Hybridized Data Encoding (HDE) model. Here, the optimal keys can be selected using the Chaotic Coati optimization algorithm (ChCoA). The decryption process can be performed using the Enhanced Diffie Hellman algorithm (EDHA). The resulting achievements will include effective encryption and decryption algorithms that together strengthen data security, facilitate secure data exchange, and provide superior protection against data vulnerabilities. By implementing the proposed work in the Matlab working platform, the performances in terms of encryption time, decryption time, processing time and throughput are analyzed. The proposed model achieved a throughput of 249.1093 (kb/s) and a processing time of 0.55 (sec). |
| doi_str_mv | 10.1016/j.knosys.2024.112653 |
| format | article |
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The resulting achievements will include effective encryption and decryption algorithms that together strengthen data security, facilitate secure data exchange, and provide superior protection against data vulnerabilities. By implementing the proposed work in the Matlab working platform, the performances in terms of encryption time, decryption time, processing time and throughput are analyzed. 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The decryption process can be performed using the Enhanced Diffie Hellman algorithm (EDHA). The resulting achievements will include effective encryption and decryption algorithms that together strengthen data security, facilitate secure data exchange, and provide superior protection against data vulnerabilities. By implementing the proposed work in the Matlab working platform, the performances in terms of encryption time, decryption time, processing time and throughput are analyzed. 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The encryption process is a critical component of classic standard encryption techniques such as advanced encryption, standard block ciphers, and data encryption standards. The traditional algorithm requires increased power consumption and memory. Therefore, there is a need to develop an efficient cryptographic operation to promote better security. The encryption process is performed using the Hybridized Data Encoding (HDE) model. Here, the optimal keys can be selected using the Chaotic Coati optimization algorithm (ChCoA). The decryption process can be performed using the Enhanced Diffie Hellman algorithm (EDHA). The resulting achievements will include effective encryption and decryption algorithms that together strengthen data security, facilitate secure data exchange, and provide superior protection against data vulnerabilities. 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| ispartof | Knowledge-based systems, 2024-12, Vol.306, p.112653, Article 112653 |
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| language | eng |
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| source | ScienceDirect Freedom Collection |
| subjects | Chaotic coati optimization Cryptography Data security Decryption Encryption Enhanced Diffie Hellman Hybridized data encoding |
| title | Hybridized data encoding based encryption and Diffie Hellman decryption for security enhancement |
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