利用机器学习在动态无线环境中准确识别物联网设备

Bhagyashri Tushir, Vikram K Ramanna, Yuhong Liu, Behnam Dezfouli
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引用次数: 0

摘要

识别物联网设备对于网络监控、安全执法和库存跟踪至关重要。然而,现有的大多数识别方法都依赖于深度数据包检测,这不仅会引发隐私问题,还会增加计算的复杂性。更重要的是,现有的工作忽略了无线信道动态对第 2 层特征准确性的影响,从而限制了它们在实际场景中的有效性。在这项工作中,我们定义并使用特定探测-响应数据包交换的延迟(称为 "设备延迟")作为设备识别的主要特征。此外,我们还揭示了无线信道动态对基于设备延迟的设备识别准确性的重要影响。具体来说,这项工作引入了 "累积分数 "作为一种新方法,在训练机器学习模型时捕捉细粒度信道动态及其对设备延迟的影响。我们实施了所提出的方法,并测量了真实世界场景中设备识别的准确性和开销。结果证实,通过在平衡数据收集和训练机器学习算法时采用累积分数,即使在无线信道动态条件下,我们在设备识别方面的 F1 分数也能达到 97% 以上,与忽略信道动态对数据收集和设备延迟的影响时 75% 的 F1 分数相比,有了显著提高。
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Leveraging Machine Learning for Accurate IoT Device Identification in Dynamic Wireless Contexts
Identifying IoT devices is crucial for network monitoring, security enforcement, and inventory tracking. However, most existing identification methods rely on deep packet inspection, which raises privacy concerns and adds computational complexity. More importantly, existing works overlook the impact of wireless channel dynamics on the accuracy of layer-2 features, thereby limiting their effectiveness in real-world scenarios. In this work, we define and use the latency of specific probe-response packet exchanges, referred to as "device latency," as the main feature for device identification. Additionally, we reveal the critical impact of wireless channel dynamics on the accuracy of device identification based on device latency. Specifically, this work introduces "accumulation score" as a novel approach to capturing fine-grained channel dynamics and their impact on device latency when training machine learning models. We implement the proposed methods and measure the accuracy and overhead of device identification in real-world scenarios. The results confirm that by incorporating the accumulation score for balanced data collection and training machine learning algorithms, we achieve an F1 score of over 97% for device identification, even amidst wireless channel dynamics, a significant improvement over the 75% F1 score achieved by disregarding the impact of channel dynamics on data collection and device latency.
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