ElGamal algorithm with hyperchaotic sequence to enhance security of cloud data

IF 0.6 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS International Journal of Pervasive Computing and Communications Pub Date : 2022-10-13 DOI:10.1108/ijpcc-06-2022-0240
Aruna Kumari Koppaka, V. N. Lakshmi
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Abstract

Purpose In the cloud-computing environment, privacy preservation and enabling security to the cloud data is a crucial and demanding task. In both the commercial and academic world, the privacy of important and sensitive data needs to be safeguarded from unauthorized users to improve its security. Therefore, several key generations, encryption and decryption algorithms are developed for data privacy preservation in the cloud environment. Still, the outsourced data remains with the problems like minimum data security, time consumption and increased computational complexity. The purpose of this research study is to develop an effective cryptosystem algorithm to secure the outsourced data with minimum computational complexity. Design/methodology/approach A new cryptosystem algorithm is proposed in this paper to address the above-mentioned concerns. The introduced cryptosystem algorithm has combined the ElGamal algorithm and hyperchaotic sequence, which effectively encrypts the outsourced data and diminishes the computational complexity of the system. Findings In the resulting section, the proposed improved ElGamal cryptosystem (IEC) algorithm performance is validated using the performance metrics like encryption time, execution time, decryption time and key generation comparison time. The IEC algorithm approximately reduced 0.08–1.786 ms of encryption and decryption time compared to the existing model: secure data deletion and verification. Originality/value The IEC algorithm significantly enhances the data security in cloud environments by increasing the power of key pairs. In this manuscript, the conventional ElGamal algorithm is integrated with the pseudorandom sequences for a pseudorandom key generation for improving the outsourced cloud data security.
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基于超混沌序列的ElGamal算法增强云数据的安全性
目的在云计算环境下,对云数据进行隐私保护和安全保护是一项至关重要且要求很高的任务。无论是在商业领域还是学术界,都需要保护重要敏感数据的隐私,防止未经授权的用户使用,以提高其安全性。因此,针对云环境下的数据隐私保护,开发了几种密钥生成、加密和解密算法。尽管如此,外包数据仍然存在数据安全性最低、耗时和计算复杂性增加等问题。本研究的目的是开发一种有效的密码系统算法,以最小的计算复杂度来保护外包数据。设计/方法/方法本文提出了一种新的密码系统算法来解决上述问题。该算法将ElGamal算法与超混沌序列相结合,有效地对外包数据进行加密,降低了系统的计算复杂度。在结果部分中,使用诸如加密时间、执行时间、解密时间和密钥生成比较时间等性能指标验证了所提出的改进的ElGamal密码系统(IEC)算法的性能。与现有模型相比,IEC算法大约减少了0.08-1.786 ms的加密和解密时间:安全的数据删除和验证。原创性/价值IEC算法通过增加密钥对的能力显著提高了云环境中的数据安全性。本文将传统的ElGamal算法与伪随机序列相结合,生成伪随机密钥,以提高外包云数据的安全性。
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来源期刊
International Journal of Pervasive Computing and Communications
International Journal of Pervasive Computing and Communications COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
6.60
自引率
0.00%
发文量
54
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