The number of connected Internet of Things (IoT) devices within cyber-physical infrastructure systems grows at an increasing rate. This poses significant device management and security challenges to current IoT networks. Among several approaches to cope with these challenges, data-based methods rooted in deep learning (DL) are receiving an increased interest. In this paper, motivated by the upcoming surge of 5G IoT connectivity in industrial environments, we propose to integrate a DL-based anomaly detection (AD) as a service into the 3GPP mobile cellular IoT architecture. The proposed architecture embeds autoencoder based anomaly detection modules both at the IoT devices (ADM-EDGE) and in the mobile core network (ADM-FOG), thereby balancing between the system responsiveness and accuracy. We design, integrate, demonstrate and evaluate a testbed that implements the above service in a real-world deployment integrated within the 3GPP Narrow-Band IoT (NB-IoT) mobile operator network.
翻译:网络物理基础设施系统内连接的事物互联网装置的数目在不断增长,这对目前的互联网网络造成了严重的设备管理和安全挑战。在应对这些挑战的若干办法中,基于深层学习的数据方法受到越来越多的关注。在本文件中,由于工业环境中5G IoT连接即将激增,我们提议将基于DL的异常现象检测(AD)作为3GPP移动蜂窝 IoT结构的一项服务。拟议的建筑将基于自动编码器的异常现象检测模块嵌入了IoT设备(ADM-EDGE)和移动核心网络(ADM-FOG),从而平衡了系统的反应性和准确性。我们设计、整合、展示和评价了一个测试台,在3GPP Nrow-Band IoT(NB-IoT)移动运营者网络内整合的实际部署中实施上述服务。
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