Litcius/Paper detail

Bayesian weighted random forest for classification of high-dimensional genomics data

Oyebayo Ridwan Olaniran, Mohd Asrul Affendi Abdullah

2023Kuwait Journal of Science28 citationsDOIOpen Access PDF

Abstract

In this paper, a full Bayesian weighted probabilistic model is developed for random classification trees. The new model Bayesian Weighted Random Classification Forest (BWRCF) arises from the modification of the existing random classification forest in two ways. Firstly, the tree terminal node estimation procedure is replaced with a Bayesian estimation approach. Secondly, a new variable ranking procedure is developed and then hybridized with BWRCF to tackle the high-dimensionality issues. The performance of the proposed method is analyzed using simulated and real-life high-dimensional microarray datasets based on holdout accuracy and misclassification error rates. The results of the analyses showed that the proposed BWRCF is robust in terms of its ability to withstand moderate to large high-dimensionality scenarios. In addition, BWRCF also has improved predictive and efficiency abilities over selected competing methods.

Topics & Concepts

Random forestCurse of dimensionalityComputer scienceBayesian probabilityData miningArtificial intelligenceBayesian networkRanking (information retrieval)Machine learningTree (set theory)Naive Bayes classifierPattern recognition (psychology)MathematicsSupport vector machineMathematical analysisGene expression and cancer classificationFace and Expression RecognitionMachine Learning and ELM
Bayesian weighted random forest for classification of high-dimensional genomics data | Litcius