IoT Eye An Efficient System for Dynamic IoT Devices Auto-discovery on Organization Level

Jie Shen, Ying Li, B. Li, Hanteng Chen, Jianxin Li
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引用次数: 6

Abstract

Internet of Things (IoT) serves not only as an essential part of the new generation information technology but as an important development stage in the information era. IoT devices such as unmanned aerial vehicles, robots and wearable equipments have been widely used in recent years. For most organizations' inner networks, innumerable dynamic connections with Internet accessible IoT devices occur at many parts all the time. It is usually these temporal links that arise potential threats to the security of the whole intranet. In this paper, we propose a new system named IoT Eye, which automatically discovers the IoT devices in real time. The IoT Eye detects all the potential IoT target hosts using an innovative two-stage architecture: (1) Scanning suspicious IP segments with stateless TCP SYN scan model and zero copy TCP stack; (2) Identifying each IoT device on various protocols using PI-AC, which is a novel high-performance multi-pattern matching algorithm. The preceding model ensures the IoT Eye searching each newly connected device out in rather small time delay, which minimizes the missing and wrong detection rates. Related intelligence on the active IoT devices linked with the organization's intranets are of great importance to the professionals. Since it can help them: (1) re-examine the borders of large intranets; (2) reduce non-essential device access; (3) fix security vulnerabilities timely.
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物联网之眼:组织级动态物联网设备自动发现的高效系统
物联网(Internet of Things, IoT)是新一代信息技术的重要组成部分,也是信息时代的重要发展阶段。近年来,无人机、机器人、可穿戴设备等物联网设备得到了广泛应用。对于大多数组织的内部网络来说,与互联网可访问的物联网设备的无数动态连接每时每刻都在许多地方发生。通常是这些临时链接对整个内部网的安全产生潜在的威胁。在本文中,我们提出了一个名为“物联网之眼”的新系统,该系统可以实时自动发现物联网设备。物联网之眼使用创新的两阶段架构检测所有潜在的物联网目标主机:(1)使用无状态TCP SYN扫描模型和零复制TCP堆栈扫描可疑IP段;(2)使用PI-AC识别各种协议上的每个物联网设备,这是一种新型的高性能多模式匹配算法。上述模型确保物联网之眼在相当小的时间延迟内搜索到每个新连接的设备,从而最大限度地减少丢失和错误的检测率。与组织内部网相连的活动物联网设备上的相关智能对专业人员来说非常重要。因为它可以帮助他们:(1)重新检查大型内部网的边界;(2)减少非必要设备接入;(3)及时修复安全漏洞。
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