Alsharif Abuadbba scite author profile

A new collaborative learning, called split learning, was recently introduced, aiming to protect user data privacy without revealing raw input data to a server. It collaboratively runs a deep neural network model where the model is split into two parts, one for the client and the other for the server. Therefore, the server has no direct access to raw data processed at the client. Until now, the split learning is believed to be a promising approach to protect the client's raw data; for example, the client's data was protected in healthcare image applications using 2D convolutional neural network (CNN) models. However, it is still unclear whether the split learning can be applied to other deep learning models, in particular, 1D CNN. In this paper, we examine whether split learning can be used to perform privacy-preserving training for 1D CNN models. To answer this, we first design and implement an 1D CNN model under split learning and validate its efficacy in detecting heart abnormalities using medical ECG data. We observed that the 1D CNN model under split learning can achieve the same accuracy of 98.9% like the original (non-split) model. However, our evaluation demonstrates that split learning may fail to protect the raw data privacy on 1D CNN models. To address the observed privacy leakage in split learning, we adopt two privacy leakage mitigation techniques: 1) adding more hidden layers to the client side and 2) applying differential privacy. Although those mitigation techniques are helpful in reducing

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Hybrid Cryptographic Access Control for Cloud-Based EHR Systems

Premarathne

Abuadbba

Alabdulatif

et al. 2016

IEEE Cloud Comput.

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Alsharif Abuadbba

End-to-End Evaluation of Federated Learning and Split Learning for Internet of Things

Can We Use Split Learning on 1D CNN Models for Privacy Preserving Training?

Hybrid Cryptographic Access Control for Cloud-Based EHR Systems

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