Personal health records sharing scheme based on attribute based signcryption with data integrity verifiable-Reference-Cited by-同舟云学术

Personal health records sharing scheme based on attribute based signcryption with data integrity verifiable

Published:2021-10-06 Issue: Volume: Page:1-34
ISSN:1875-8924
Container-title:Journal of Computer Security
language:
Short-container-title:JCS

Author:

Obiri Isaac Amankona¹,Xia Qi¹,Xia Hu¹,Affum Eric¹,Abla Smahi¹,Gao Jianbin¹

Affiliation:

1. School of Computer Science and Engineering, University of Electronic Science and Technology of China, Chengdu, China. E-mails: obiriisaac@gmail.com, xiaqi@uestc.edu.cn, xiahu@uestc.edu.cn, affrico23@yahoo.com, ababla886@yahoo.fr, gaojb@uestc.edu.cn

Abstract

The distribution of personal health records (PHRs) via a cloud server is a promising platform as it reduces the cost of data maintenance. Nevertheless, the cloud server is semi-trusted and can expose the patients’ PHRs to unauthorized third parties for financial gains or compromise the query result. Therefore, ensuring the integrity of the query results and privacy of PHRs as well as realizing fine-grained access control are critical key issues when PHRs are shared via cloud computing. Hence, we propose new personal health records sharing scheme with verifiable data integrity based on B+ tree data structure and attribute-based signcryption scheme to achieve data privacy, query result integrity, unforgeability, blind keyword search, and fine-grained access control.

Publisher

IOS Press

Subject

Computer Networks and Communications,Hardware and Architecture,Safety, Risk, Reliability and Quality,Software

Reference54 articles.

1. R. Agrawal, J. Kirenan, R. Srikant and Y. Xu, Order-preserving encryption for numeric data, in: The Proceedings of the SIGMOD, Paris, 2004, pp. 563–574.

2. Charm: A framework for rapidly prototyping cryptosystems;Akinyele;Journal of Cryptographic Engineering,2013

3. A general framework for secure sharing of personal health records in cloud system;Au;Journal of Computer and System Sciences,2017

4. Personal Health Records (PHR) and the future of the physician-patient relationship

5. E. Ben-Sasson, A. Chiesa, E. Tromer and M. Virza, Succinct non-interactive zero knowledge for a von Neumann architecture, in: Proceedings of the 23rd USENIX Conference on Security Symposium, 2014, pp. 781–796.

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