Litcius/Paper detail

Multimodel Feature Reinforcement Framework Using Moore–Penrose Inverse for Big Data Analysis

Wandong Zhang, Q. M. Jonathan Wu, Yimin Yang, Thangarajah Akilan

2020IEEE Transactions on Neural Networks and Learning Systems34 citationsDOI

Abstract

Fully connected representation learning (FCRL) is one of the widely used network structures in multimodel image classification frameworks. However, most FCRL-based structures, for instance, stacked autoencoder encode features and find the final cognition with separate building blocks, resulting in loosely connected feature representation. This article achieves a robust representation by considering a low-dimensional feature and the classifier model simultaneously. Thus, a new hierarchical subnetwork-based neural network (HSNN) is proposed in this article. The novelties of this framework are as follows: 1) it is an iterative learning process, instead of stacking separate blocks to obtain the discriminative encoding and the final classification results. In this sense, the optimal global features are generated; 2) it applies Moore-Penrose (MP) inverse-based batch-by-batch learning strategy to handle large-scale data sets, so that large data set, such as Place365 containing 1.8 million images, can be processed effectively. The experimental results on multiple domains with a varying number of training samples from ∼ 1 K to ∼ 2 M show that the proposed feature reinforcement framework achieves better generalization performance compared with most state-of-the-art FCRL methods.

Topics & Concepts

Computer scienceAutoencoderArtificial intelligenceSubnetworkDiscriminative modelPattern recognition (psychology)Reinforcement learningFeature learningClassifier (UML)Feature (linguistics)Representation (politics)ENCODEArtificial neural networkGeneralizationMachine learningMathematicsComputer securityLinguisticsPolitical scienceLawPoliticsPhilosophyBiochemistryChemistryGeneMathematical analysisMachine Learning and ELMDomain Adaptation and Few-Shot LearningFace and Expression Recognition