Robust and Efficient Privacy Preservation in Industrial IoT via correlation completion and tracking

2019 IEEE 17th International Conference on Industrial Informatics (INDIN) Pub Date : 2019-07-01 DOI:10.1109/INDIN41052.2019.8972154

A. Lalos, Evangelos Vlachos, K. Berberidis, A. Fournaris, C. Koulamas

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Abstract

The Industrial IoT (IIoT) is a key element of Industry 4.0, bringing together modern sensor technology, fog - cloud computing platforms, and artificial intelligence (AI) to create smart, self-optimizing industrial equipment and facilities. Though, the scale and sensitivity degree of information continuously increases, giving rise to serious privacy concerns. In this work we address the problem of efficiently and effectively tracking the structure of multivariate streams recorded in a network of IIoT devices. The time varying correlation data values are used to add noise which maximally preserves privacy, in the sense that it is very hard to be removed. To improve communication efficiency between connected IoT devices, we exploit low rank properties of the correlation matrices, and track the essential correlations from a small subset of correlation values estimated by a subset of network nodes. Extensive simulation studies, validate the correctness, efficiency, and effectiveness of our approach in terms of computational complexity, transmission energy efficiency and privacy preservation.

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通过关联完成和跟踪实现工业物联网的鲁棒高效隐私保护

工业物联网(IIoT)是工业4.0的关键要素，它将现代传感器技术、雾云计算平台和人工智能(AI)结合在一起，创造出智能的、自我优化的工业设备和设施。然而，信息的规模和敏感程度不断增加，引起了严重的隐私问题。在这项工作中，我们解决了高效和有效地跟踪IIoT设备网络中记录的多变量流结构的问题。时变的相关数据值被用来添加噪声，最大限度地保护隐私，从某种意义上说，这是很难去除的。为了提高连接物联网设备之间的通信效率，我们利用相关矩阵的低秩属性，并从一组网络节点估计的一小部分相关值中跟踪基本相关性。广泛的仿真研究，验证了我们的方法在计算复杂性，传输能量效率和隐私保护方面的正确性，效率和有效性。

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2019 IEEE 17th International Conference on Industrial Informatics (INDIN)

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