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Achieving M2M-device authentication through heterogeneous information bound with USIM card

机译:通过使用USIM卡的异构信息实现M2M-Device身份验证

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摘要

In the commercial launches of Long-term evolution machine type communication (LTE-M), which includes enhanced machine type communication or machine to machine (M2M) communication in the Long-term evolution (LTE), the security issues is worth the attention. Several security problems have been discovered in LTE-M. One such important problem is the non-authenticated usage of the subscriber identity module (SIM) cards. Because M2M communications are not human-centric, the common personal identification number (PIN) code verification mechanism is not suitable for the machine driven communications. In this paper, we propose two approaches to solve the non-authenticated SIM card usage problem by restricting the code in the SIM card to the specific user device. One approach, named IMEI-IMSI pairing, is an enhancement of the original authentication mechanism which performs device authentication by pairing the International Mobile Equipment Identification Number (IMEI), the device's unique code, and the International Mobile Subscriber Identification Number (IMSI), which is the SIM card's unique code. Besides ClockSkew-IMSI pairing, the other approach, leverages certain hardware characteristics which are difficult to alter. In particular, we make use of the clock skew, which for each device is slightly different. To evaluate our methods, we implement two approaches on OpenAirlnterface, an open source 5G development platform. In comparison to the method proposed for 3rd Generation Partnership Project (3GPP), both of our approaches are more efficient in achieving secure device authentication.
机译:在长期演进机型通信(LTE-M)的商业推出中,包括增强的机器类型通信或机器到机器(M2M)通信在长期演进(LTE)中,安全问题值得关注。 LTE-M发现了几个安全问题。一个这样的重要问题是订户身份模块(SIM)卡的非验证使用。由于M2M通信不是以人为中心的,所以常见的个人识别码(PIN)代码验证机制不适用于机器驱动通信。在本文中,我们提出了通过将SIM卡中的代码限制到特定用户设备来提出两种方法来解决非经过认证的SIM卡使用问题。一种方法,名为IMEI-IMSI配对,是通过配对国际移动设备识别号(IMEI),设备的唯一代码和国际移动用户识别号(IMSI)来增强原始身份验证机制的提升SIM卡的唯一代码是。除了ClockSkew-IMSI配对外,其他方法,利用难以改变的某些硬件特性。特别是,我们利用时钟偏斜,每个设备略有不同。为了评估我们的方法,我们在开源5G开发平台上实施OpenAirlnterface的两种方法。与第三代合作伙伴计划(3GPP)提出的方法相比,我们的两种方法都在实现安全设备认证方面更有效。

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  • 来源
    《Future generation computer systems》 |2020年第9期|629-637|共9页
  • 作者

    Ta-Wei Yang; Yu-Han Ho; Cheng-Fu Chou;

  • 作者单位

    Graduate Institute of Networking and Multimedia National Taiwan University Taipei Taiwan;

    Graduate Institute of Networking and Multimedia National Taiwan University Taipei Taiwan;

    Graduate Institute of Networking and Multimedia National Taiwan University Taipei Taiwan Department of Computer Science and Information Engineering National Taiwan University Taipei Taiwan;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Internet of things; Mobile communication; Authentication;

    机译:物联网;移动通信;验证;

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