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An Efficient Privacy-Preserving Machine Learning for Blockchain Network

Aakash Sonkar, Suyash Kumar Sahu, Ashu Nayak, Devbrat Sahu, Pushpalata Verma, Rovin Tiwari

202417 citationsDOI

Abstract

Blockchain innovation has as of late drawn in a great deal of interest as a potential major advantage for various applications. By the by, there are as yet significant snags with blockchain organizations’ presentation and versatility. AI approaches give possible solutions to improving and advancing blockchain network activities around here. There is an additional opportunity for supporting the proficiency of blockchain networks: choice tree calculations. These calculations are prestigious for being basic, interpretable, and adaptable. This study dives into choice tree-based AI procedures that are planned in light of blockchain networks. We go over the hypothesis behind choice trees and how they work comparable to blockchain innovation. We likewise give a careful survey of the writing on blockchain network issues settled by choice tree calculations, including pertinent exploration, strategies, and contextual investigations. We trust that by doing this examination, we will show how choice tree AI approaches might work on the proficiency, security, and adaptability of blockchain networks.

Topics & Concepts

BlockchainComputer scienceInformation privacyComputer securityBlockchain Technology Applications and SecurityPrivacy-Preserving Technologies in DataCryptography and Data Security
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