Litcius/Paper detail

A blockchain‐enabled learning model based on distributed deep learning architecture

Yang Zhang, Yongquan Liang, Bin Jia, Pinxiang Wang, Xiaosong Zhang

2022International Journal of Intelligent Systems12 citationsDOI

Abstract

Aiming to address the unsatisfactory performance of existing distributed deep learning architectures, such as poor accuracy, slow network communication, low arithmetic speed, and insufficient security, we propose and design a learning model based on a distributed deep learning and blockchain architecture. We use a hybrid parallel algorithm based on blockchain (HP-B) to build a distributed deep consensus learning model. The HP-B algorithm is grouped according to the performance of computing nodes participating in training, network links and training samples, and the grouped computing equipment performs optimal distributed computing. The purpose of this approach is to solve the security and scalability concerns and improve the convergence speed and accuracy of deep learning. The proposed method achieves good results on the CIFAR-100, CIFAR-10, and IMAGENET data sets. Finally, the distributed deep learning model based on blockchain is combined with the generative adversarial network to solve the segmentation problem of medical imaging data, and the experimental results are superior to those of other networks.

Topics & Concepts

Computer scienceDeep learningScalabilityArtificial intelligenceBlockchainArchitectureNetwork architectureMachine learningConvergence (economics)Distributed computingSegmentationComputer architectureComputer networkComputer securityDatabaseArtEconomic growthVisual artsEconomicsBrain Tumor Detection and ClassificationBlockchain Technology Applications and SecurityArtificial Intelligence in Healthcare and Education