2024 : 11 : 21
Shahrokh Esmaeili

Shahrokh Esmaeili

Academic rank: Associate Professor
ORCID:
Education: PhD.
ScopusId: 15834719000
HIndex:
Faculty: Faculty of Science
Address: Department of Mathematics University of Kurdistan
Phone: 08733624133

Research

Title
Feature representation ‎via‎ graph-regularized ‎entropy-‎weighted nonnegative matrix factorization
Type
JournalPaper
Keywords
Feature extraction,‎ Subspace learning,‎ ‎ Weighted NMF, ‎ Entropy regularizer
Year
2024
Journal AUT Journal of Mathematics and Computing
DOI
Researchers Hazhir Sohrabi ، Shahrokh Esmaeili ، Parham Moradi

Abstract

Feature extraction plays a crucial role in dimensionality reduction in machine learning applications‎. ‎Nonnegative Matrix Factorization (NMF) has emerged as a powerful technique for dimensionality reduction; however‎, ‎its equal treatment of all features may limit accuracy‎. ‎To address this challenge‎, ‎this paper introduces Graph-Regularized Entropy-Weighted Nonnegative Matrix Factorization (GEWNMF) for enhanced feature representation‎. ‎The proposed method improves feature extraction through two key innovations‎: ‎optimizable feature weights and graph regularization‎. ‎GEWNMF uses optimizable weights to prioritize the extraction of crucial features that best describe the underlying data structure‎. ‎These weights‎, ‎determined using entropy measures‎, ‎ensure a diverse selection of features‎, ‎thereby enhancing the fidelity of the data representation‎. ‎This adaptive weighting not only improves interpretability but also strengthens the model against noisy or outlier-prone datasets‎. ‎Furthermore‎, ‎GEWNMF integrates robust graph regularization techniques to preserve local data relationships‎. ‎By constructing an adjacency graph that captures these relationships‎, ‎the method enhances its ability to discern meaningful patterns amid noise and variability‎. ‎This regularization not only stabilizes the method but also ensures that nearby data points appropriately influence feature extraction‎. ‎Thus‎, ‎GEWNMF produces representations that capture both global trends and local nuances‎, ‎making it applicable across various domains‎. ‎Extensive experiments on four widely used datasets validate the efficacy of GEWNMF compared to existing methods‎, ‎demonstrating its superior performance in capturing meaningful data patterns and enhancing interpretability.