Jin Sun scite author profile

Electronic medical records can help people prevent diseases, improve cure rates, provide a significant basis for medical institutions and pharmaceutical companies, and provide legal evidence for medical negligence and medical disputes. However, the integrity and security problems of electronic medical data still intractable. In this paper, based on the ciphertext policy attribute-based encryption system and IPFS storage environment, combined with blockchain technology, we constructed an attribute-based encryption scheme for secure storage and efficient sharing of electronic medical records in IPFS storage environment. Our scheme is based on ciphertext policy attribute encryption, which effectively controls the access of electronic medical data without affecting efficient retrieval. Meanwhile, we store the encrypted electronic medical data in the decentralized InterPlanetary File System (IPFS), which not only ensures the security of the storage platform but also solves the problem of the single point of failure. Besides, we leverage the non-tamperable and traceable nature of blockchain technology to achieve secure storage and search for medical data. The security proof shows that our scheme achieves selective security for the choose keyword attacks. Performance analysis and real data set simulation experiments shows that our scheme is efficient and feasible.

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Minimizing cost and makespan for workflow scheduling in cloud using fuzzy dominance sort based HEFT

Zhou

Zhang

Sun

et al. 2019

Future Generation Computer Systems

218

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Utility-Based Hybrid Memory Management

Ghose

Choi

et al. 2017

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Further improvement for fast computation of mixed potential Green's functions for cylindrically stratified media

Sun

Wang

et al. 2004

IEEE Trans. Antennas Propagat.

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A method of fast computation of the mixed potential Green's functions (MPGFs) in spatial domain for cylindrically stratified media has been developed. Based on the convergence behavior of the MPGFs in spectral domain, the discrete complex image method (DCIM) and the extrapolation technique are employed to perform the inverse Fourier transform, which is different from that of planarly stratified media. In order to evaluate the summation of cylindrical eigenmode from order of negative infinity to order of positive infinity, the Green's functions in spectral domain are rearranged so that acceleration technique can be well applied to speed up the convergence of summation process. For the integral along the deformed Sommerfeld integral path with respect to , DCIM is used to speed up the computation. After the quasistatic components are completely subtracted from the spectral domain Green's functions, the inverse transform of the remaining parts has an approximated analytical form. The proposed method can be used to accurately and efficiently calculate the spatial domain MPGFs, which are useful for characterizing conformal patch structures mounted on cylindrically stratified media.Index Terms-Cylindrically stratified media, discrete complex image method (DCIM), integral equation, mixed potential Green's function.

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Security-Critical Energy-Aware Task Scheduling for Heterogeneous Real-Time MPSoCs in IoT

Zhou

Sun

Cong

et al. 2020

IEEE Trans. Serv. Comput.

127

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Jin Sun

Blockchain-Based Secure Storage and Access Scheme For Electronic Medical Records in IPFS

Minimizing cost and makespan for workflow scheduling in cloud using fuzzy dominance sort based HEFT

Utility-Based Hybrid Memory Management

Further improvement for fast computation of mixed potential Green's functions for cylindrically stratified media

Security-Critical Energy-Aware Task Scheduling for Heterogeneous Real-Time MPSoCs in IoT

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