• Title of article

    Monitoring Mortality Caused by COVID-19 Using GammaDistributed Variables Based on Generalized Multiple Dependent State Sampling

  • Author/Authors

    Aslam, Muhammad Department of Statistics - Faculty of Science - King Abdulaziz University - Jeddah, Saudi Arabia , Srinivasa Rao, G Department of Mathematics and Statistics - The University of Dodoma - Dodoma, Tanzania , Saleem, Muhammad Department of Industrial Engineering - Faculty of Engineering-Rabigh - King Abdulaziz University - Jeddah, Saudi Arabia , Sherwani, Rehan Ahmad Khan University of the Punjab Lahore, Pakistan , Jun, Chi-Hyuck Department of Industrial and Management Engineering - POSTECH - Pohang, Republic of Korea

  • Pages
    16
  • From page
    1
  • To page
    16
  • Abstract
    More recently in statistical quality control studies, researchers are paying more attention to quality characteristics having nonnormal distributions. In the present article, a generalized multiple dependent state (GMDS) sampling control chart is proposed based on the transformation of gamma quality characteristics into a normal distribution. The parameters for the proposed control charts are obtained using in-control average run length (ARL) at specified shape parametric values for different specified average run lengths. The out-of-control ARL of the proposed gamma control chart using GMDS sampling is explored using simulation for various shift size changes in scale parameters to study the performance of the control chart. The proposed gamma control chart performs better than the existing multiple dependent state sampling (MDS) based on gamma distribution and traditional Shewhart control charts in terms of average run lengths. A case study with real-life data from ICU intake to death caused by COVID-19 has been incorporated for the realistic handling of the proposed control chart design.
  • Keywords
    COVID-19 , Generalized , GMDS , SQC
  • Journal title
    Computational and Mathematical Methods in Medicine
  • Serial Year
    2021
  • Record number

    2615057