Privacy-preserving and verifiable convolution neural network inference and training in cloud computing

IF 6.2 2区 计算机科学 Q1 COMPUTER SCIENCE, THEORY & METHODS Future Generation Computer Systems-The International Journal of Escience Pub Date : 2024-10-19 DOI:10.1016/j.future.2024.107560
Wei Cao , Wenting Shen , Jing Qin , Hao Lin
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Abstract

With the rapid development of cloud computing, outsourcing massive data and complex deep learning model to cloud servers (CSs) has become a popular trend, which also brings some security problems. One is that the model stored in the CSs may be corrupted, leading to incorrect inference and training results. The other is that the privacy of outsourced data and model may be compromised. However, existing privacy-preserving and verifiable inference schemes suffer from low detection probability, high communication overhead and substantial computational time. To solve the above problems, we propose a privacy-preserving and verifiable scheme for convolutional neural network inference and training in cloud computing. In our scheme, the model owner generates the authenticators for model parameters before uploading the model to CSs. In the phase of model integrity verification, model owner and user can utilize these authenticators to check model integrity with high detection probability. Furthermore, we design a set of privacy-preserving protocols based on replicated secret sharing for both the inference and training phases, significantly reducing communication overhead and computational time. Through security analysis, we demonstrate that our scheme is secure. Experimental evaluations show that the proposed scheme outperforms existing schemes in privacy-preserving inference and model integrity verification.
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云计算中的隐私保护和可验证卷积神经网络推理与训练
随着云计算的快速发展,将海量数据和复杂的深度学习模型外包给云服务器(CSs)已成为一种流行趋势,同时也带来了一些安全问题。一是存储在 CS 中的模型可能会被破坏,导致错误的推理和训练结果。另一个问题是外包数据和模型的隐私可能被泄露。然而,现有的隐私保护和可验证推理方案存在检测概率低、通信开销大和计算时间长等问题。为了解决上述问题,我们提出了一种在云计算中进行卷积神经网络推理和训练的隐私保护和可验证方案。在我们的方案中,模型所有者在将模型上传到 CS 之前会生成模型参数的验证器。在模型完整性验证阶段,模型所有者和用户可以利用这些验证器以高检测概率检查模型的完整性。此外,我们还为推理和训练阶段设计了一套基于复制秘密共享的隐私保护协议,大大减少了通信开销和计算时间。通过安全分析,我们证明了我们的方案是安全的。实验评估表明,所提出的方案在隐私保护推理和模型完整性验证方面优于现有方案。
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来源期刊
CiteScore
19.90
自引率
2.70%
发文量
376
审稿时长
10.6 months
期刊介绍: Computing infrastructures and systems are constantly evolving, resulting in increasingly complex and collaborative scientific applications. To cope with these advancements, there is a growing need for collaborative tools that can effectively map, control, and execute these applications. Furthermore, with the explosion of Big Data, there is a requirement for innovative methods and infrastructures to collect, analyze, and derive meaningful insights from the vast amount of data generated. This necessitates the integration of computational and storage capabilities, databases, sensors, and human collaboration. Future Generation Computer Systems aims to pioneer advancements in distributed systems, collaborative environments, high-performance computing, and Big Data analytics. It strives to stay at the forefront of developments in grids, clouds, and the Internet of Things (IoT) to effectively address the challenges posed by these wide-area, fully distributed sensing and computing systems.
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