Security System Analysis in Combination Method: RSA Encryption and Digital Signature Algorithm

2018 4th International Conference on Science and Technology (ICST) Pub Date : 2018-08-01 DOI:10.1109/ICSTC.2018.8528584

Farah Jihan Aufa, Endroyono, A. Affandi

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引用次数: 25

Abstract

Public key cryptography or asymmetric keys are widely used in the implementation of data security on information and communication systems. The RSA algorithm (Rivest, Shamir, and Adleman) is one of the most popular and widely used public key cryptography because of its less complexity. RSA has two main functions namely the process of encryption and decryption process. Digital Signature Algorithm (DSA) is a digital signature algorithm that serves as the standard of Digital Signature Standard (DSS). DSA is also included in the public key cryptography system. DSA has two main functions of creating digital signatures and checking the validity of digital signatures. In this paper, the authors compare the computational times of RSA and DSA with some bits and choose which bits are better used. Then combine both RSA and DSA algorithms to improve data security. From the simulation results, the authors chose RSA 1024 for the encryption process and added digital signatures using DSA 512, so the messages sent are not only encrypted but also have digital signatures for the data authentication process.

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RSA加密与数字签名算法组合方法的安全系统分析

公钥加密或非对称密钥被广泛应用于信息通信系统的数据安全实现中。RSA算法(Rivest、Shamir和Adleman)是最流行和广泛使用的公钥加密算法之一，因为它的复杂性较低。RSA主要有两个功能，即加密过程和解密过程。DSA (Digital Signature Algorithm)是一种数字签名算法，作为DSS (Digital Signature standard)的标准。DSA也包含在公钥加密系统中。DSA有两个主要功能:创建数字签名和检查数字签名的有效性。在本文中，作者比较了一些比特的RSA和DSA的计算时间，并选择了哪些比特更适合使用。然后结合RSA和DSA算法来提高数据的安全性。从仿真结果来看，作者选择RSA 1024作为加密过程，并使用DSA 512添加数字签名，使得发送的消息不仅加密而且具有数据认证过程的数字签名。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 4th International Conference on Science and Technology (ICST)

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