Variable Selection Using aModified Gibbs Sampler Algorithm with Application on Rock Strength Dataset
Abstract
Variable selection is an essential and necessary task in the statistical modeling field. Several studies have triedto develop and standardize the process of variable selection, but it isdifficultto do so. The first question a researcher needs to ask himself/herself what are the most significant variables that should be used to describe a given dataset’s response. In thispaper, a new method for variable selection using Gibbs sampler techniqueshas beendeveloped.First, the model is defined, and the posterior distributions for all the parameters are derived.The new variable selection methodis tested usingfour simulation datasets. The new approachiscompared with some existingtechniques: Ordinary Least Squared (OLS), Least Absolute Shrinkage and Selection Operator (Lasso), and Tikhonov Regularization (Ridge). The simulation studiesshow that the performance of our method is better than the othersaccording to the error and the time complexity. Thesemethodsare applied to a real dataset, which is called Rock StrengthDataset.The new approach implemented using the Gibbs sampler is more powerful and effective than other approaches.All the statistical computations conducted for this paper are done using R version 4.0.3 on a single processor computer.
Keywords
Bayesian, Gibbs, Lasso, Markov chain Monte Carlo, Posterior, Ridge, Variable selection.
Article Type
Article
How to Cite this Article
Mahdi, Ghadeer J. M. and Salih, Othman M.
(2022)
"Variable Selection Using aModified Gibbs Sampler Algorithm with Application on Rock Strength Dataset,"
Baghdad Science Journal: Vol. 19:
Iss.
3, Article 6.
DOI: https://doi.org/10.21123/bsj.2022.19.3.0551
