Privacy-preserving Neural Networks for Smart Manufacturing

IF 2.6 3区 工程技术 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS Journal of Computing and Information Science in Engineering Pub Date : 2023-10-10 DOI:10.1115/1.4063728
Hankang Lee, Daniel Finke, Hui Yang
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引用次数: 1

Abstract

Abstract The rapid advance in sensing technology has expedited data-driven innovation in manufacturing by allowing the collection of large amounts of data from factories. Big data provides an unprecedented opportunity for smart decision-making in the manufacturing process. However, they also attract cyberattacks due to the value of sensitive information. A cyberattack on manufacturing big data can lead to a significant loss of profits and unprecedented business disruption. Moreover, the increasing use of artificial intelligence (AI) in smart factories means that manufacturing equipment is now vulnerable to cyberattacks, posing a critical threat to smart manufacturing systems. Therefore, there is an urgent need to develop AI models that incorporate privacy-preserving methods to protect sensitive information implicit in the models against model inversion attacks. Hence this paper presents the development of a new approach called Mosaic Neuron Perturbation (MNP) to preserve latent information in the framework of the AI model, ensuring differential privacy requirements while mitigating the risk of model inversion attacks. MNP is flexible to implement into AI models, enabling a trade-off between model performance and robustness against cyberattacks while being highly scalable for large-scale computing. Experimental results, based on real-world manufacturing data collected from the CNC turning process, demonstrate that the proposed method significantly improves the prevention of inversion attacks while maintaining high prediction performance. The MNP method shows strong potential for making manufacturing systems both smart and secure by addressing the risk of data breaches while preserving the quality of AI models.
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面向智能制造的隐私保护神经网络
传感技术的快速发展通过允许从工厂收集大量数据,加速了数据驱动的制造业创新。大数据为制造过程中的智能决策提供了前所未有的机会。然而,由于敏感信息的价值,它们也吸引了网络攻击。针对制造业大数据的网络攻击可能导致重大利润损失和前所未有的业务中断。此外,在智能工厂中越来越多地使用人工智能(AI)意味着制造设备现在容易受到网络攻击,对智能制造系统构成严重威胁。因此,迫切需要开发包含隐私保护方法的人工智能模型,以保护模型中隐含的敏感信息免受模型反转攻击。因此,本文提出了一种称为马赛克神经元摄动(MNP)的新方法,以在人工智能模型框架中保留潜在信息,确保不同的隐私要求,同时降低模型反演攻击的风险。MNP可以灵活地实现到人工智能模型中,在模型性能和抗网络攻击的鲁棒性之间实现权衡,同时在大规模计算中具有高度可扩展性。基于CNC车削过程的真实制造数据的实验结果表明,该方法在保持较高预测性能的同时,显著提高了对反转攻击的预防能力。MNP方法显示出强大的潜力,通过解决数据泄露的风险,同时保持人工智能模型的质量,使制造系统既智能又安全。
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来源期刊
CiteScore
6.30
自引率
12.90%
发文量
100
审稿时长
6 months
期刊介绍: The ASME Journal of Computing and Information Science in Engineering (JCISE) publishes articles related to Algorithms, Computational Methods, Computing Infrastructure, Computer-Interpretable Representations, Human-Computer Interfaces, Information Science, and/or System Architectures that aim to improve some aspect of product and system lifecycle (e.g., design, manufacturing, operation, maintenance, disposal, recycling etc.). Applications considered in JCISE manuscripts should be relevant to the mechanical engineering discipline. Papers can be focused on fundamental research leading to new methods, or adaptation of existing methods for new applications. Scope: Advanced Computing Infrastructure; Artificial Intelligence; Big Data and Analytics; Collaborative Design; Computer Aided Design; Computer Aided Engineering; Computer Aided Manufacturing; Computational Foundations for Additive Manufacturing; Computational Foundations for Engineering Optimization; Computational Geometry; Computational Metrology; Computational Synthesis; Conceptual Design; Cybermanufacturing; Cyber Physical Security for Factories; Cyber Physical System Design and Operation; Data-Driven Engineering Applications; Engineering Informatics; Geometric Reasoning; GPU Computing for Design and Manufacturing; Human Computer Interfaces/Interactions; Industrial Internet of Things; Knowledge Engineering; Information Management; Inverse Methods for Engineering Applications; Machine Learning for Engineering Applications; Manufacturing Planning; Manufacturing Automation; Model-based Systems Engineering; Multiphysics Modeling and Simulation; Multiscale Modeling and Simulation; Multidisciplinary Optimization; Physics-Based Simulations; Process Modeling for Engineering Applications; Qualification, Verification and Validation of Computational Models; Symbolic Computing for Engineering Applications; Tolerance Modeling; Topology and Shape Optimization; Virtual and Augmented Reality Environments; Virtual Prototyping
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