• Title of article

    On enhanced sensitivity of nonparametric EWMA control charts for process monitoring

  • Author/Authors

    abbasi, s.a. department of mathematicas and statistics - king fahad university of petroleum and mineral - saudi arabia , ahmad, s. department of mathematicas - COMSATS institute of information technology - pakistan , riaz, m. department of mathematicas and statistics - king fahad university of petroleum and mineral - saudi arabia

  • Pages
    15
  • From page
    424
  • To page
    438
  • Abstract
    Control charts are popular tounderols for process monitoring and are mainly classied into memory and memory-less structures. Exponentially Weighted Moving Average control charts (EWMA) are widely used for the detection of small shifts in process parameters. The traditional design structures of these types of charts rely on the stringent assumption of normality. In practice, quality characteristics generally do not follow normality; hence, alternative charting structures are needed. Nonparametric control chart is one such alternative that do not depend on the mentioned distributional assumption(s). This study deals with nonparametric EWMA charts for an ecient detection of smaller shifts in location. We have investigated asymptotic, time-varying, and Fast Initial Response (FIR) based time varying control limits for nonparametric EWMA charts. We have considered two variants of FIR with time varying limits for nonparametric EWMA structure. A variety of run length properties have been investigated for performance evaluations. It is observed that FIR-based nonparametric EWMA charts with time-varying limits are quite sensitive to detecting smaller shifts, and they oer attractive run length properties. A real-life example is also provided to illustrate the application of the time-varying and FIR-based nonparametric EWMA control charts.
  • Keywords
    Average run length , Control Charts , exponentially weighted moving average , Extra quadratic loss , Relative average run length , Time-varying
  • Journal title
    Astroparticle Physics
  • Serial Year
    2017
  • Record number

    2439050