Protection mechanisms for signaling DoS attacks on 3G mobile networks: Comparative study and future perspectives

2016 4th IEEE International Colloquium on Information Science and Technology (CiSt) Pub Date : 2016-10-01 DOI:10.1109/CIST.2016.7805009

Raja Ettiane, R. Elkouch, A. Chaoub

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引用次数: 3

Abstract

3G mobile networks have gained high user popularity due to the tremendous growth of the smart phone market. However, their complex signaling procedures and limited soft capacity made them vulnerable to new denial-of-service (DoS) attacks involving the control plane. More importantly, this type of frauds can also affect the successors of the 3G and their related paradigms such as smart cities. In this paper, we deeply examine the considerable signaling load of the IDLE-DCH state transitions that can be exploited by malicious entities to launch signaling DoS attacks. Besides, we investigate some state-of-art techniques proposed to combat the signaling attacks. A comparative analysis between these solutions has been conducted with regard to three pertinent criteria: cost, efficiency and overhead. The summary of results indicates that even though the randomization experiences some flaws related to the radio channel consumption, it presents the most optimal cost and overhead compared to the remaining solutions. This study opens up a new horizon for more secure 3G systems based on the randomization defense mechanisms.

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3G移动网络信令DoS攻击的保护机制:比较研究和未来展望

由于智能手机市场的巨大增长，3G移动网络获得了很高的用户普及率。然而，它们复杂的信号过程和有限的软容量使它们容易受到涉及控制平面的新的拒绝服务(DoS)攻击。更重要的是，这种类型的欺诈也会影响3G的后继者及其相关范例，如智慧城市。在本文中，我们深入研究了IDLE-DCH状态转换的相当大的信令负载，恶意实体可以利用这些负载来发起信令DoS攻击。此外，我们还研究了一些最新提出的对抗信令攻击的技术。对这些解决办法进行了关于三个有关标准的比较分析:成本、效率和间接费用。结果表明，尽管随机化在无线电信道消耗方面存在一些缺陷，但与其他解决方案相比，它具有最优的成本和开销。本研究为基于随机化防御机制的更安全的3G系统开辟了新的视野。

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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2016 4th IEEE International Colloquium on Information Science and Technology (CiSt)

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