Multi-server assisted data sharing supporting secure deduplication for metaverse healthcare systems

The integration of Metaverse and healthcare will improve the allocation and utilization of healthcare resources. Metaverse healthcare data is stored on a public server and downloaded using Artificial Intelligence devices. Patients are given a diagnosis promptly through Metaverse healthcare systems....

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Bibliographic Details
Published in:Future generation computer systems 2023-03, Vol.140, p.299-310
Main Authors: Zhang, Tao, Shen, Jian, Lai, Chin-Feng, Ji, Sai, Ren, Yongjun
Format: Article
Language:English
Subjects:
Data sharing
Deduplication
Metaverse healthcare
Multi-server
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Summary:The integration of Metaverse and healthcare will improve the allocation and utilization of healthcare resources. Metaverse healthcare data is stored on a public server and downloaded using Artificial Intelligence devices. Patients are given a diagnosis promptly through Metaverse healthcare systems. However, storing Metaverse healthcare data on public servers leads to a variety of problems, such as leakage of patient health information and loss of vital medical record data. Attribute-based encryption (ABE) has played an important role in securely and efficiently Metaverse healthcare data sharing. In this paper, a feature-rich and efficient ABE-based Metaverse healthcare data sharing scheme is presented, which realizes constant encryption computation overhead according to a multi-server structure. To reduce the number of invalid ciphertexts and achieve secure deduplication, Metaverse healthcare ciphertext validity and equivalence detection are also provided in this scheme. Furthermore, a novel attribute-based re-encryption is proposed for authority delegation after deduplication. Finally, the experiment simulated on the PBC library shows that the proposed scheme possesses good performance. The freshness of Metaverse healthcare data and the utilization of the medical center’s private server are ensured in this paper. •Multi-server assisted encryption and decryption are proposed.•An efficient method to verify the correctness of Metaverse healthcare data is proposed.•Metaverse ciphertext validity and equivalence detection are provided.•A novel attribute-based re-encryption is presented for authority delegation.
ISSN:0167-739X
1872-7115
DOI:10.1016/j.future.2022.10.031