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Communications in Statistics - Theory and Methods Volume 46, 2017 - Issue 17
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Original Articles

Optimal design of synthetic np control chart based on median run length

Ming Ha LeeFaculty of Engineering, Computing and Science, Swinburne University of Technology, Sarawak Campus, Kuching, Sarawak, MalaysiaCorrespondence[email protected]
&
Michael B. C. KhooSchool of Mathematical Sciences, Universiti Sains Malaysia, Penang, Malaysia
Pages 8544-8556 | Received 17 Jan 2016, Accepted 18 Apr 2016, Published online: 16 May 2017

References

  • Barnard, G.A. (1959). Control charts and stochastic processes. J. R. Stat. Soc. Ser. B 21(2):239–271.
  • Bissell, A.F. (1969). CUSUM techniques for quality control. J. R. Stat. Soc. Ser. C 18(1):1–30.
  • Bourke, P.D. (1991). Detecting a shift in fraction nonconforming using run-length control charts with 100% inspection. J. Q. Technol. 23:225–238.
  • Brook, D., Evans, D.A. (1972). An approach to the probability distribution of cusum run length. Biometrika 59:539–549.
  • Calzada, M.E., Scariano, S.M. (2013). A synthetic control chart for the coefficient of variation. J. Stat. Comput. Simul. 83:853–867.
  • Castagliola, P., Wu, S., Khoo, M.B.C., Chakraborti, S. (2014). Synthetic phase II Shewhart-type attributes control charts when process parameters are estimated. Q. Reliab. Eng. Int. 30:315–335.
  • Chakraborti, S. (2006). Parameter estimation and design considerations in prospective applications of the chart. J. Appl. Stat. 33:439–459.
  • Chakraborti, S. (2007). Run length distribution and percentiles: The Shewhart chart with unknown parameters. Q. Eng. 19:119–127.
  • Champ, C.W. (1992). Steady-state run length analysis of a Shewhart quality control chart with supplementary runs rules. Commun. Stat. Theory Methods 21:765–777.
  • Chin, W.S., Khoo, M.B.C. (2012). A study of the median run length (MRL) performance of the EWMA t chart for the mean. S Afr. J. Ind. Eng. 23:42–55.
  • Chong, Z.L., Khoo, M.B.C., Castagliola, P. (2014). Synthetic double sampling np control chart for attributes. Computers & Industrial Engineering 75:157–169.
  • Davis, R.B., Woodall, W.H. (2002). Evaluating and improving the synthetic control chart. J. Q. Technol. 34:200–208.
  • Fang, Y.Y., Khoo, M.B.C., Lee, M.H. (2013). Synthetic-type control charts for time-between-events monitoring. Plos One 8:e65440.
  • Gan, F.F. (1992). Exact run length distributions for one-sided exponential CUSUM schemes. Stat. Sinica 2:297–312.
  • Gan, F.F. (1993a). An optimal design of EWMA control charts based on median run length. J. Stat. Comput. Simul. 45:169–184.
  • Gan, F.F. (1993b). The run length distribution of a cumulative sum control chart. J. Q. Technol. 25:205–215.
  • Gan, F.F. (1994). An optimal design of cumulative sum control chart based on median run length. Commun. Stat. Simul. Comput. 23:485–503.
  • Haq, A., Brown, J., Moltchanova, E. (2015). New synthetic control charts for monitoring process mean and process dispersion. Q. Reliability Eng. Int. 31:1305–1325.
  • Haridy, S., Wu, Z., Abhary, K., Castagliola, P., Shamsuzzaman, M. (2014). Development of a multiattribute synthetic-np chart. J. Stat. Comput. Simul. 84:1884–1903.
  • Haridy, S., Wu, Z., Khoo, M.B.C., Yu, F.J. (2012). A combined synthetic and np scheme for detecting increases in fraction nonconforming. Comput. Ind. Eng. 62:979–988.
  • Hu, X.L., Castagliola, P., Sun, J.S., Khoo, M.B.C. (2015). The effect of measurement errors on the synthetic chart. Q. Reliability Eng. Int. 31:1769–1778.
  • Khilare, S.K., Shirke, D.T. (2010). A nonparametric synthetic control chart using sign statistic. Commun. Stat. Theory Methods 39:3282–3293.
  • Khilare, S.K., Shirke, D.T. (2011). Nonparametric synthetic control charts for process variation. Q. Reliability Eng. Int. 28:193–202.
  • Khoo, M.B.C., Lee, H.C., Wu, Z., Chen, C.H., Castagliola, P. (2010). A synthetic double sampling control chart for the process mean. IIE Trans. 43:23–38.
  • Khoo, M.B.C., Wong, V.H., Wu, Z., Castagliola, P. (2011). Optimal designs of the multivariate synthetic chart for monitoring the process mean vector based on median run length. Q. Reliability Eng. Int. 27:981–997.
  • Khoo, M.B.C., Wong, V.H., Wu, Z., Castagliola, P. (2012). Optimal design of the synthetic chart for the process mean based on median run length. IIE Trans. 44:765–779.
  • Lee, M.H. (2012). The design of the multivariate synthetic exponentially weighted moving average control chart. Commun. Stat. Simul. Comput. 41:1785–1793.
  • Lee, M.H., Khoo, M.B.C. (2014). The synthetic mean square error control chart. Commun. Stat. Simul. Comput. 43:1523–1542.
  • Lee, M.H., Khoo, M.B.C. (2015). Multivariate synthetic |S| control chart with variable sampling interval. Commun. Stat. Simul. Comput. 44:924–942.
  • Lee, M.H., Khoo, M.B.C., Xie, M. (2014). An optimal control procedure based on multivariate synthetic cumulative sum. Q. Reliability Eng. Int. 30:1049–1058.
  • Low, C.K., Khoo, M.B.C., Teoh, W.L., Wu, Z. (2012). The revised m-of-k runs rule based on median run length. Commun. Stat. Simul. Comput. 41:1463–1477.
  • Machado, M.A.G., Costa, A.F.B. (2014a). A side-sensitive synthetic chart combined with an X chart. Int. J. Prod. Res. 52:3404–3416.
  • Machado, M.A.G., Costa, A.F.B. (2014b). Some comments regarding the synthetic chart. Commun. Stat. Theory Methods 43:2897–2906.
  • Palm, A.C. (1990). Tables of run length percentiles for determining the sensitivity of Shewhart control charts for averages with supplementary runs rules. J. Q. Technol. 22:289–298.
  • Pawar, V.Y., Shirke, D.T. (2010). A nonparametric Shewhart-type synthetic control chart. Commun. Stat. Simul. Comput. 39:1493–1505.
  • Rajmanya, S.V., Ghute, V.B. (2014). A synthetic control chart for monitoring process variability. Q. Reliability Eng. Int. 30:1301–1309.
  • Teoh, W.L., Khoo, M.B.C., Castagliola, P., Chakraborti, S. (2014). Optimal design of the double sampling chart with estimated parameters based on median run length. Comput. Ind. Eng. 67:104–115.
  • Teoh, W.L., Khoo, M.B.C., Castagliola, P., Lee, M.H. (2016). The exact run length distribution and design of the Shewhart chart with estimated parameters based on median run length. Commun. Stat. Simul. Comput. 45:2081--2103.
  • Teoh, W.L., Khoo, M.B.C., Teh, S.Y. (2013). Optimal designs of the median run length based double sampling chart for minimizing the average sample size. Plos One 8:e68580.
  • Waldmann, K.-H. (1986a). Bounds for the distribution of the run length of geometric moving average charts. J. R. Stat. Soc. Ser. C 35:151–158.
  • Waldmann, K.-H. (1986b). Bounds for the distribution of the run length of one-sided and two-sided CUSUM quality control schemes. Technometrics 28:61–67.
  • Woodall, W.H. (1983). The distribution of the run length of one-sided CUSUM procedures for continuous random variables. Technometrics 25:295–301.
  • Wu, Z., Ou, Y.J., Castagliola, P., Khoo, M.B.C. (2010). A combined synthetic and X chart for monitoring the process mean. Int. J. Prod. Res. 48:7423–7436.
  • Wu, Z., Spedding, T.A. (2000). A synthetic control chart for detecting small shifts in the process mean. J. Q. Technol. 32:32–38.
  • Wu, Z., Yeo, S.H., Spedding, T.A. (2001). A synthetic control chart for detecting fraction nonconforming increases. J. Q. Technol. 33:104–111.
  • Yeong, W.C., Khoo, M.B.C., Lee, M.H., Rahim, M.A. (2013). Economic and economic statistical designs of the synthetic chart using loss functions. Eur. J. Oper. Res. 228:571–581.
  • Yeong, W.C., Khoo, M.B.C., Lee, M.H., Rahim, M.A. (2014). Economically optimal design of a multivariate synthetic T2 chart. Commun. Stat. Simul. Comput. 43:1333–1361.
  • Zhang, Y., Castagliola, P., Wu, Z., Khoo, M.B.C. (2011). The synthetic chart with estimated parameters. IIE Trans. 43:676–687.

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