Paper Info
Title
Deep Learning Based Homomorphic Secure Search-Able Encryption for Keyword Search in Blockchain Healthcare System: A Novel Approach to Cryptography
Abstract
Due to the value and importance of patient health records (PHR), security is the most critical feature of encryption over the Internet. Users that perform keyword searches to gain access to the PHR stored in the database are more susceptible to security risks. Although a blockchain-based healthcare system can guarantee security, present schemes have several flaws. Existing techniques have concentrated exclusively on data storage and have utilized blockchain as a storage database. In this research, we developed a unique deep-learning-based secure search-able blockchain as a distributed database using homomorphic encryption to enable users to securely access data via search. Our suggested study will increasingly include secure key revocation and update policies. An IoT dataset was used in this research to evaluate our suggested access control strategies and compare them to benchmark models. The proposed algorithms are implemented using smart contracts in the hyperledger tool. The suggested strategy is evaluated in comparison to existing ones. Our suggested approach significantly improves security, anonymity, and monitoring of user behavior, resulting in a more efficient blockchain-based IoT system as compared to benchmark models.
Year
DOI
Venue
2022
10.3390/s22020528
SENSORS
Keywords
DocType
Volume
security, blockchain, privacy, homomorphic encryption, deep learning, access control, smart contracts
Journal
22
Issue
ISSN
Citations 
2
1424-8220
0
PageRank 
References 
Authors
0.34
0
7
Name
Order
Citations
PageRank
Aitizaz Ali100.34
Muhammad Fermi Pasha200.34
Jehad Ali332.16
Ong Huey Fang400.34
Mehedi Masud57726.95
Anca Delia Jurcut600.34
Mohammed A Alzain700.34