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Communications in Statistics - Simulation and Computation Volume 44, 2015 - Issue 6
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Original Articles

Change Point Estimation of Multivariate Linear Profiles Under Linear Drift

Reza Baradaran KazemzadehDepartment of Industrial Engineering, Faculty of Engineering, Tarbiat Modares University, Tehran, IranCorrespondence[email protected]
,
Rassoul NoorossanaDepartment of Industrial Engineering, Iran University of Science and Technology, Tehran, Iran
&
Mona AyoubiDepartment of Industrial Engineering, Faculty of Engineering, Tarbiat Modares University, Tehran, Iran
Pages 1570-1599 | Received 19 Oct 2012, Accepted 20 Jan 2013, Published online: 10 Dec 2014

References

  • Ahmadzadeh, F. (2009). Change point detection with multivariate control charts by artificial neural network. The International Journal of Advanced Manufacturing Technology. DOI:10.1007/s00170-009-2193-6.
  • Alaeddini, A., Ghazanfari, M., Aminnayeri, M. (2009). A hybrid fuzzy statistical clustering approach for estimating the time of changes in fixed and variable sampling control charts. Information Sciences 179(11):1769–1784.
  • Allison, P.D. (2012). Handling missing data by maximum likelihood. SAS Global Forum. Statistical Horizons, Haverford, PA, USA, paper 312, pp. 1–21.
  • Amiri, A., Allahyari, S. (2012). Change point estimation methods for control chart postsignal diagnostics: a literature review. Quality and Reliability Engineering International 28(7):637–685.
  • Amiri, A., Jensen, W.A., Kazemzadeh, R.B. (2010). A case study on monitoring polynomial profiles in the automotive industry. Quality and Reliability Engineering International 26(5):509–520.
  • Atashgar, K., Noorossana, R. (2011). An integrating approach to root cause analysis of a bivariate mean vector with a linear trend disturbance. The International Journal of Advanced Manufacturing Technology 52(1–4):407–420.
  • Chicken, E., Pignatiello Jr, J.J., Simpson, J.R. (2009). Statistical process monitoring of nonlinear profiles using wavelets. Journal of Quality Technology 41(2):198.
  • Eyvazian, M., Noorossana, R., Saghaei, A., Amiri, A. (2011). Phase II monitoring of multivariate multiple linear regression profiles. Quality and Reliability Engineering International 27(3):281–296.
  • Ghazanfari, M., Alaeddini, A., Niaki, S.T. A., Aryanezhad, M.B. (2008). A clustering approach to identify the time of a step change in shewhart control charts. Quality and Reliability Engineering International 24(7):765–778.
  • Gupta, S., Montgomery, D.C., Woodall, W.H. (2006). Performance evaluation of two methods for online monitoring of linear calibration profile. International Journal of Production Research 44(10):1927–1942.
  • Hosseinifard, S.Z., Abdollahian, M., Zeephongsekul, P. (2011). Application of artificial neural networks in linear profile monitoring. Expert Systems with Applications 38(5):4920–4928.
  • Kazemzadeh, R.B., Noorossana, R., Amiri, A. (2008). Phase I monitoring of polynomial profiles. Communications in Statistics—Theory and Methods 37(10):1671–1686.
  • Kang, L., Albin, S.L. (2000). On-line monitoring when the process yields a linear profile. Journal of Quality Technology 32(4):418–426.
  • Kim, K., Mahmoud, M.A., Woodall, W.H. (2003). On the monitoring of linear profiles. Journal of Quality Technology 35(3):317–328.
  • Li, Z., Wang, Z., (2010). An exponentially weighted moving average scheme with variable sampling intervals for monitoring linear profiles. Computers & Industrial Engineering 59(4):630–637.
  • Mahmoud, M.A. (2008). Phase I analysis of multiple linear regression profiles. Communications in Statistics—Simulation and Computation 37(10):2106–2130.
  • Mahmoud, M.A., Morgan, J.P., Woodall, W.H. (2010). The monitoring of simple linear regression profiles with two observations per sample. Journal of Applied Statistics 37(8):1249–1263.
  • Mahmoud, M.A., Parker, P.A., Hawkins, M.D., Woodall, W.H. (2007). A change point method for linear profile data. Quality and Reliability Engineering International 23(2):247–268.
  • Mahmoud, M.A., Woodall, W.H. (2004). Phase I analysis of linear profiles with calibration applications. Technometrics 46(4):380–391.
  • Noorossana, R., Ayoubi, M. (2012). Profile monitoring using nonparametric bootstrap T2 control chart. Communication in statistics-Simulation & Computation 41(3):302–315.
  • Noorossana, R., Eyvazian, M., Amiri, A., Mahmoud, M.A. (2010). Statistical monitoring of multivariate multiple linear regression profiles in phase I with calibration application. Quality and Reliability Engineering International 26(3):291–303.
  • Noorossana, R., Saghaei, A., Amiri, A. (2011). Statistical Analysis of Profile Monitoring. John Wiley and Sons, Inc., Hoboken, New Jersey.
  • Noorosana, R., Saghaei, A., Paynabar, K., Abdi, S. (2009). Identifying the period of a step change in high-yield processes. Quality and Reliability Engineering International 25(7):875–883.
  • Noorossana, R., Shadman, A. (2009). Estimating the change point of a normal process mean with a monotonic change. Quality and Reliability Engineering International 25(1):79–90.
  • Paynabar, K., Jin, J. (2011). Characterization of non-linear profiles variations using mixed-effect models and wavelets. IIE Transactions 43(4):275–290.
  • Perry, M.B., Pignatiello, J.J . Jr. (2006). Estimation of the change point of a normal process mean with a linear trend disturbance in SPC. Quality Technology and Quantitative Management 3(3):325–334.
  • Perry, M.B., Pignatiello, J.J . Jr., Simpson, J.R. (2006). Estimating the change point of a poisson rate parameter with a linear trend disturbance. Quality and Reliability Engineering International 22(4):371–384.
  • Perry, M.B., Pignatiello, J.J. Jr., Simpson, J.R. (2007). Estimating the change point of the process fraction non-conforming with a monotonic change disturbance in SPC. Quality and Reliability Engineering International 23(3):327–339.
  • Pignatiello, J.J . Jr., Samuel, T.R. (2001). Estimation of the change point of a normal process mean in SPC applications. Journal of Quality Technology 33(1):82–95.
  • Samuel, T.R., Pignatiello, J.J. Jr., Calvin, J.A. (1998a). Identifying the time of a step change with  control charts. Quality Engineering 10(3):521–527.
  • Samuel, T.R., Pignatiello, J.J. Jr., Calvin, JA..A. (1998b). Identifying the time of a step change in a normal process variance. Quality Engineering 10(3):529–538.
  • Woodall, W.H. (2007). Current research on profile monitoring. Revista Producão 17(3):420–425.
  • Woodall, W.H., Spitzner, D.J., Montgomery, D.C., Gupta, S. (2004). Using control charts to monitor process and product quality profiles. Journal of Quality Technology 36(3):309–320.
  • Yeh, A., Zerehsaz, Y. (2012). Phase I control of simple linear profiles with individual observations. Quality and Reliability Engineering International 29(6):829–840.
  • Zhang, J., Li, Z., Wang, Z. (2009). Control chart based on likelihood ratio for monitoring linear profiles. Computational Statistics and Data Analysis 53(4):1440–1448.
  • Zhu, J., Lin, D.K. J. (2010). Monitoring the slopes of linear profiles. Quality Engineering 22(1):1–12.
  • Zou, C., Ning, X., Tsung, F. (2012). LASSO-based multivariate linear profile monitoring. Annals of operations research 192(1):3–19.
  • Zou, C., Qiu, P., Hawkins, D. (2009). Nonparametric control chart for monitoring profiles using change point formulation and adaptive smoothing. Statistica Sinica 19(3):1337.
  • Zou, C., Tsung, F., Wang, Z. (2007a). Monitoring general linear profiles using multivariate exponentially weighted moving average schemes. Technometrics 49(4):395–408.
  • Zou, C., Zhang, Y., Wang, Z. (2006). Control chart based on change-point model for monitoring linear profiles. IIE Transactions 38(12):1093–110.
  • Zou, C., Zhou, C., Wang, Z., Tsung, F. (2007b). A self-starting control charts for linear profiles. Journal of Quality Technology 39(4):364–375.

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