Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service
AI-as-a-Service has emerged as an important trend for supporting the growth of the digital economy. Digital service providers make use of their vast amount of customer data to train AI models (such as image recognition, financial modelling and pandemic modelling etc) and offer them as a service on t...
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sg-ntu-dr.10356-1745672024-04-05T15:36:39Z Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service Lam, Kwok-Yan Lu, Xianhui Zhang, Linru Wang, Xiangning Wang, Huaxiong Goh, Si Qi School of Computer Science and Engineering Strategic Centre for Research in Privacy-Preserving Technologies & Systems (SCRIPTS) Computer and Information Science Fully homomorphic encryption Privacy-enhanced neural networks Look-up table algorithm Deep neural network Digital trust Secure cloud computing Data privacy Cryptographic protocol Applied cryptography AI-as-a-Service has emerged as an important trend for supporting the growth of the digital economy. Digital service providers make use of their vast amount of customer data to train AI models (such as image recognition, financial modelling and pandemic modelling etc) and offer them as a service on the cloud. While there are convincing advantages for using such third-party models, the fact that model users are required to upload their data to the cloud is bound to raise serious privacy concerns, especially in the face of increasingly stringent privacy regulations and legislation. To promote the adoption of AI-as-a-Service while addressing privacy issues, we propose a practical approach for constructing privacy-enhanced neural networks by designing an efficient implementation of fully homomorphic encryption. With this approach, an existing neural network can be converted to process FHE-encrypted data and produce encrypted output which are only accessible by the model users, and more importantly, within an operationally acceptable time (e.g. within 1 second for facial recognition in typical border control systems). Experimental results show that in many practical tasks such as facial recognition, text classification and so on, we obtained the state-of-the-art inference accuracy in less than one second on a 16 cores CPU. National Research Foundation (NRF) Submitted/Accepted version This research is supported by the National Research Foundation, Singapore and Infocomm Media Development Authority under its Trust Tech Funding Initiative and Strategic Capability Research Centres Funding Initiative. 2024-04-03T05:39:22Z 2024-04-03T05:39:22Z 2024 Journal Article Lam, K., Lu, X., Zhang, L., Wang, X., Wang, H. & Goh, S. Q. (2024). Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service. IEEE Transactions On Dependable and Secure Computing. https://dx.doi.org/10.1109/TDSC.2024.3353536 1545-5971 https://hdl.handle.net/10356/174567 10.1109/TDSC.2024.3353536 2-s2.0-85182929446 en IEEE Transactions on Dependable and Secure Computing © 2024 The Author(s). This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License. application/pdf |
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Computer and Information Science Fully homomorphic encryption Privacy-enhanced neural networks Look-up table algorithm Deep neural network Digital trust Secure cloud computing Data privacy Cryptographic protocol Applied cryptography |
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Computer and Information Science Fully homomorphic encryption Privacy-enhanced neural networks Look-up table algorithm Deep neural network Digital trust Secure cloud computing Data privacy Cryptographic protocol Applied cryptography Lam, Kwok-Yan Lu, Xianhui Zhang, Linru Wang, Xiangning Wang, Huaxiong Goh, Si Qi Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service |
| description |
AI-as-a-Service has emerged as an important trend for supporting the growth of the digital economy. Digital service providers make use of their vast amount of customer data to train AI models (such as image recognition, financial modelling and pandemic modelling etc) and offer them as a service on the cloud. While there are convincing advantages for using such third-party models, the fact that model users are required to upload their data to the cloud is bound to raise serious privacy concerns, especially in the face of increasingly stringent privacy regulations and legislation. To promote the adoption of AI-as-a-Service while addressing privacy issues, we propose a practical approach for constructing privacy-enhanced neural networks by designing an efficient implementation of fully homomorphic encryption. With this approach, an existing neural network can be converted to process FHE-encrypted data and produce encrypted output which are only accessible by the model users, and more importantly, within an operationally acceptable time (e.g. within 1 second for facial recognition in typical border control systems). Experimental results show that in many practical tasks such as facial recognition, text classification and so on, we obtained the state-of-the-art inference accuracy in less than one second on a 16 cores CPU. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Lam, Kwok-Yan Lu, Xianhui Zhang, Linru Wang, Xiangning Wang, Huaxiong Goh, Si Qi |
| format |
Article |
| author |
Lam, Kwok-Yan Lu, Xianhui Zhang, Linru Wang, Xiangning Wang, Huaxiong Goh, Si Qi |
| author_sort |
Lam, Kwok-Yan |
| title |
Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service |
| title_short |
Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service |
| title_full |
Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service |
| title_fullStr |
Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service |
| title_full_unstemmed |
Efficient FHE-based privacy-enhanced neural network for trustworthy AI-as-a-service |
| title_sort |
efficient fhe-based privacy-enhanced neural network for trustworthy ai-as-a-service |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174567 |
| _version_ |
1800916297388654592 |