Blockchain-Based Privacy Access Control Mechanism and Collaborative Analysis for Medical Images

Blockchain-Based Privacy Access Control Mechanism and Collaborative Analysis for Medical Images

Medical image analysis technology based on deep learning has played an important role in computer-aided disease diagnosis and treatment. Classification accuracy has always been the primary goal pursued by researchers. However, the image transmission process also faces the problems of limited wireles...

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Bibliographic Details
Published in:Security and communication networks Vol. 2022; pp. 1 - 7
Main Authors: Prasad, Puja Sahay, Beena Bethel, G N, Singh, Ninni, Kumar Gunjan, Vinit, Basir, Samar, Miah, Shahajan
Format: Journal Article
Language:English
Published: London Hindawi 29-06-2022
Hindawi Limited
Subjects:
Access control
Accuracy
Ad hoc networks
Algorithms
Blockchain
Classification
Cleaning
Cloud computing
Collaboration
Cryptography
Cybersecurity
Data encryption
Data transmission
Deep learning
Diagnosis
Flexibility
Image analysis
Image classification
Image quality
Image transmission
Information systems
Machine learning
Mathematical models
Medical imaging
Neural networks
Parameters
Physicians
Privacy
Technology assessment
Wavelet transforms
Wide area networks
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Summary:Medical image analysis technology based on deep learning has played an important role in computer-aided disease diagnosis and treatment. Classification accuracy has always been the primary goal pursued by researchers. However, the image transmission process also faces the problems of limited wireless ad-hoc network (WAN) bandwidth and increased security risks. Moreover, when user data are exposed to unauthorized users, platforms can easily leak personal privacy. Aiming at the abovementioned problems, a system model and an access control scheme for the collaborative analysis of the diagnosis of diabetic retinopathy (DR) are constructed in this paper. The system model includes two stages of data cleaning and lesion classification. In the data cleaning phase, the private cloud writes the model obtained after training into the blockchain, and other private clouds use the best-performing model on the chain to identify the image quality when cleaning data and pass the high-quality image to the lesion classification model for use. In the lesion classification stage, each private cloud trains the classification model separately; uploads its own model parameters to the public cloud for aggregation to obtain a global model; and then sends the global model to each private cloud to achieve collaborative learning, reduce the amount of data transmission, and protect personal privacy. Access control schemes include improved role-based access control (RAC) used within the private cloud and blockchain-based access control used during the interaction between the private cloud and the public cloud program (BAC). RAC grants both functional rights and data access rights to roles and takes into account object attributes for fine-grained level control. Based on certificateless public-key encryption technology and blockchain technology, BAC can realize the identity authentication and authority identification of the private cloud while requesting the transmission of model parameters from the private cloud to the public cloud and protect the security of the identity, authority, and model parameters of the private cloud to achieve the effect of lightweight access control. In the experimental part, two retinal datasets are used for DR classification analysis. The results show that data cleaning can effectively remove low-quality images and improve the accuracy of early lesion classification for doctors, with an accuracy rate of 90.2%.
ISSN:1939-0114
1939-0122
DOI:10.1155/2022/9579611