修改移动通信系统中的认证技术

2014 Third International Conference on Cyber Security, Cyber Warfare and Digital Forensic (CyberSec) Pub Date : 2014-10-02 DOI:10.1109/CyberSec.2014.6913969

Zakaria Zakaria Hassan, Talaat A. Elgarf, A. Zekry

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引用次数: 3

摘要

Milenage算法采用密钥为128位、块大小为128位的分组密码AES (Rijnadael)。该算法用于移动通信系统(GSM/UMTS/LTE)的3GPP认证和密钥生成功能(f1、f1*、f2、f3、f4、f5和f5*)。本文提出了一种基于密钥动态改变AES中的S-box的Milenage算法的改进方案。为了获得每个认证过程的新密钥，我们将从认证中心(AUC)传输的随机数(RAND)添加到固定存储的密钥(Ki)的内容中，因此每个新认证过程的AES初始化将不同。在新设计的PN序列发生器的帮助下，对于密钥的每一次变化，通过对标准s盒的行和列进行排列，得到一个新的s盒。利用PIC18F452单片机对改进的Milenage和PN序列发生器进行了完整的仿真。采用Avalanche测试对原Milenage和修改后的Milenage进行了安全性分析比较。通过雪崩测试，改进后的算法由于s盒在每次密钥更改时的动态行为以及对线性和差分密码分析的免疫，比原算法具有更高的安全性。这使得改进的Milenage更适合于身份验证技术的应用，特别是针对移动通信系统。

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Modifying authentication techniques in mobile communication systems

Milenage algorithm applies the block cipher Rijnadael (AES) with 128 bit key and 128 bit block size. This algorithm is used in the 3GPP authentication and key generation functions (f1, f1*, f2, f3, f4, f5 and f5*) for mobile communication systems (GSM/UMTS/LTE). In this paper a modification of Milenage algorithm is proposed through a dynamic change of S-box in AES depending on secret key. To get a new secret key for every authentication process we add the random number (RAND) transmitted from the authentication center (AUC) to the contents of the fixed stored secret key (Ki) and thus the initialization of the AES will be different each new authentication process. For every change in secret key a new S-box is derived from the standard one by permuting its rows and columns with the help of a new designed PN sequence generator. A complete simulation of modified Milenage and PN sequence generator is done using Microcontroller (PIC18F452). Security analysis is applied using Avalanche test to compare between the original and modified Milenage. Tests proved that the modified algorithm is more secure than the original one due to the dynamic behavior of S-box with every change of the secret key and immunity against linear and differential cryptanalysis using Avalanche tests. This makes the modified Milenage more suitable for the applications of authentication techniques specially for mobile communication systems.

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来源期刊

2014 Third International Conference on Cyber Security, Cyber Warfare and Digital Forensic (CyberSec)

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