References
- Alt, F. B. 1985. “Multivariate quality control.” In Encyclopedia of statistical science, edited by S. Kotz and N. Johnson, 110–122. New York, NY: John Wiley.
- Alt, F. B., and N. D. Smith. 1988. “Multivariate process control.” Handbook of statistics 7: 333–351.
- Chakraborti, S., P. van der Laan, and M. A. van de Wiel. 2004. “A class of distribution-free control charts.” Journal of the royal statistical society, series C (applied statistics) 53(3): 443–462.
- Chao-Yu, C., W. Pin-Hao, and B. C. Jiang. 1999. “A comparative study on the estimators of standard deviation in statistical process control.” Journal of the Chinese institute of engineers 22(1): 109–116.
- Chen, Y.K. and Chiou, K.C., 2008. An evaluation of median Rankit control charts. In: IEEE international conference on systems, man and cybernetics (SMC) authorized, 12–15 October, Taichung: Department of Logistic Engineering and Management, National Taichung Institute of Technology, 3601–3605.
- De-Cheng, W. and Jie, L., 2008. Multivariate process capability index based on the additivity of normal distribution. In: IEEE 4th International conference on wireless communications, networking and mobile computing (WiCOM), 12–14 October, Dalian, China, 1–5.
- Gupta, A., and S. Sengupta. 2007. “Online control charts for process averages based on repeated median filters.” Communications in statistics – simulation and computation 37(1): 178–202.
- Gupta, S., and J. Shabbir. 2007. “On the use of transformed auxiliary variables in estimating population mean by using two auxiliary variables.” Journal of statistical planning and inference 137(5): 1606–1611.
- Hawkins, D. M. 1993. “Regression adjustment for variables in multivariate quality control.” Journal of quality technology 25(3): 170–182.
- Kanji, G. K., and O. H. Arif. 2000. “Median Rankit control chart by the quantile approach.” Journal of applied statistics 27(6): 757–770.
- Kanji, G. K., and O. H. Arif. 2001. “Median Rankit control chart for weibull distribution.” Total quality management 12(5): 629–642.
- Khoo, M. B. C. 2005. “A control chart based on sample median for the detection of a permanent shift in the process mean.” Quality engineering 17(2): 243–257.
- Khoo, M. B. C., and S. H. Quah. 2004. “Alternatives to the multivariate control chart for process dispersion.” Quality engineering 16(3): 423–435.
- Khoshnevisan, M., et al. 2007. “A general family of estimators for estimating population mean using known value of some population parameter(s).” Statistical papers 22(2): 181–191.
- Makis, V. 2008. “Multivariate Bayesian control chart.” Operations research 56(2): 487–496.
- Mason, R. L., and J. C. Young. 2002. Multivariate statistical process control with industrial applications. Philadelphia, PA: SIAM.
- Mercado, G. R., M. D. Conerly, and M. B. Perry. 2011. “Phase i control chart based on a kernel estimator of the quantile function.” Quality and reliability engineering international 27(8): 1131–1144.
- Michele, D. N., and W. J. Padgett. 2006. “A bootstrap control chart for weibull percentiles.” Quality and reliability engineering international 22(2): 141–151.
- Montgomery, D. C. 2009. Introduction to statistical quality control. 6th ed. New York, NY: Wiley.
- Moustafa, A. 2009. “A control chart based on robust estimators for monitoring the process mean of a quality characteristic.” International journal of quality and reliability management 26(5): 480–496.
- Moustafa, A., and B. A. Mokhtar. 1999. “New robust statistical process control chart for location.” Quality engineering 12(2): 149–159.
- Ning, X., and C. Wu. 2011. “Improved design of quantile-based control charts.” Journal of the Chinese institute of industrial engineers 28(7): 504–511.
- Ou, Y. J., Z. Wu, and T. N. Goh. 2011. “A new Sprt chart for monitoring process mean and variance.” International journal of production economics 132(2): 303–314.
- Ou, Y. J., Z. Wu, and F. Tsung. 2012. “A comparison study of effectiveness and robustness of control charts for monitoring process mean.” International journal of production economics 135(1): 479–490.
- Park, H. I. 2009. “Median control charts based on bootstrap method.” Communications in statistics – simulation and computation 38(3): 558–570.
- Riaz, M. 2008a. “A dispersion control chart.” Communications in statistics – simulation and computation 37(6): 1239–1261.
- Riaz, M. 2008b. “Monitoring process mean level using auxiliary information.” Statistica neerlandica 62(4): 458–481.
- Riaz, M. 2008c. “Monitoring process variability using auxiliary information.” Computational statistics 23(2): 253–276.
- Riaz, M., and R. J. M. M. Does. 2009. “A process variability control chart.” Computational statistics 24(2): 345–368.
- Rizvi, S. A. H., and R. K. Singh. 1997. “On estimation of population mean using known coefficient of variation.” Microelectronics reliability 37(5): 841–843.
- Rocke, D. M. 1992. “ and charts: robust control charts.” Journal of the royal statistical society 41(1): 97–104.
- Ryu, J. H., H. Wan, and S. Kim. 2010. “Optimal design of a CUSUM chart for a mean shift of unknown size.” Journal of quality technology 42(3): 311–326.
- Schaffer, J. R., and M. J. Kim. 2007. “Number of replications required in control chart Monte Carlo simulation studies.” Communications in statistics: simulation and computation 36(5): 1075–1087.
- Schoonhoven, M., et al. 2011. “Robust location estimators for the x-bar control chart.” Journal of quality technology 43(4): 363–379.
- Sheu, S. H., and L. Yang. 2006a. “The generally weighted moving average control chart for monitoring the process median.” Quality engineering 18(3): 333–344.
- Sheu, S. H., and L. Yang. 2006b. “The generally weighted moving average median control chart.” Quality technology & quantitative management 3(4): 455–471.
- Shu, L., F. Tsung, and K. L. Tsui. 2005. “Effects of estimation errors on cause-selecting charts.” IIE transactions 37(6): 559–567.
- Silverman, B. W. 1986. Density estimation for statistics and data analysis. London: Chapman and Hall.
- Singh, H.P. and Kakran, M.S., 1993. A modified ratio estimator using known coefficient of kurtosis of an auxiliary character.” (Unpublished manuscript).
- Singh, H. P., and R. Tailor. 2003. “Use of known correlation coefficient in estimating the finite population mean.” Statistics in transition 6(4): 555–560.
- Sisodia, B. V. S., and V. K. Dwivedi. 1981. “A modified ratio estimator using coefficient of variation of auxiliary variable.” Journal of the Indian society of agricultural statistics 33(2): 13–18.
- Tatum, L. G. 1997. “Robust estimation of the process standard deviation for control charts.” Technometrics 39(2): 127–141.
- Upadhyaya, L. N., and H. P. Singh. 1984. “On the estimation of the population mean with known coefficient of variation.” Biometrical journal 26(8): 915–922.
- Wadsworth, H. M., K. S. Stephens, and A. B. Godfrey. 2004. Modern methods for quality control and improvement. 2nd ed. New York, NY: John Wiley.
- Wu, Z., et al. 2009. “An enhanced adaptive CUSUM control chart.” IIE transactions 41(7): 642–653.
- Yang, L., S. Pai, and Y. R. Wang. 2010. “A novel CUSUM median control chart.” Proceedings of the international multi conference of engineers and computer scientists 3: 1707–1710.
- Yang, L., Y. R. Wang, and S. Pai. 2012. “Statistical and economic analyses of an EWMA-based synthesised control scheme for monitoring processes with outliers.” International journal of systems science 43(2): 285–295.
- Zhang, G. X. 1985. “Cause-selecting control charts a new type of quality control charts.” The QR journal 12(1): 21–25.
- Zhang, S., and Z. Wu. 2006. “Monitoring the process mean and variance by the WLC scheme with variable sampling intervals.” IIE transactions 38(4): 377–387.