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ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC)

Year 2015, Volume: 8 Issue: 2, 74 - 81, 01.06.2015

Abstract

In this paper, instead of traditional statistics, the Bayesian statistic has been considered incontrol charts based on economic and economic-statistical design. Due to the fact that this statistic does nothave any speciŞed distribution, the Monte Carlo method and artiŞcial bee colony (ABC) algorithm have beenutilized in order to obtain design optimum parameters (sample size, sampling interval and control limit). Thestudy indicates that the Bayesian statistic performance of control charts can be effective in this optimizationproblem. In addition, Numerical and comparison section are presented to support this proposition

References

  • Banerjee, P. K., and Rahim, M. A. (1988). Economic design of X-bar control charts under Weibull shock models, Technometrics, 30, 407-414.
  • Calabrese, J. M. (1995). Bayesian Process Control for Attributes,Management Science, 41, 637-645.
  • Costa, A. F. B., and Rahim, M. A. (2001). Economic design of X-bar charts with variable parameters: the Markov chain approach,Journal of Applied Statistics, 28/7, 875-885.
  • Duncan, A. J. (1956). The economic design of X-bar charts used to maintain current control of a process,
  • Journal of the American Statistical Association, 51, 228242.
  • Duncan, A. J. (1971). The economic design of 2 charts where there is a multiplicity of assignable causes,
  • Journal of the American Statistical Association, 66, 107-121. Eckles, J. E. (1968). Optimum maintenance with incomplete information, Operational Research, 16, 1067.
  • Faraz, A., Saniga, E., and Kazemzadeh, R. B. (2009). Economic and Economic Statistical Design ofT2
  • Control Chart with two-adaptive Sample Sizes, Journal of Statistical Computation and Simulation, 80, 1316.
  • Girshick, M. A., and Rubin, H. (1952), A Bayes approach to a quality control model,Annals of Mathe- matical Statistics, 23, 114–125.
  • Karaboga, D. (2005). An Idea Based On Honey Bee Swarm For Numerical Optimization, TR-06, October
  • Karaboga, D., and Akay, B. (2009). A comparative study of ArtiŞcial Bee Colony algorithm, Applied
  • Mathematics and Computation, 214, 108-132. Karaboga, D., and Basturk, B. (2007). A powerful and efficient algorithm for numerical function opti- mization: artiŞcial bee colony (ABC) algorithm, J. Glob Optim, 39, 459-471.
  • Karaboga, D., and Basturk, B. (2008). On the performance of artiŞcial bee colony (ABC) algorithm,
  • Applied Soft Computing, 8, 687-697. Lorenzen, T. J., and Vance, L. C. (1986). The economic design of control charts: a uni?ed approach, Technometrics, 28, 3-10.
  • Maikis, V. (2009). Multivariate Bayesian process control for a Şnite production run, European Journal of Operational Research, 194, 795–806.
  • Prabhu, S. S., Mongomery, D. C., and Runger, G. C. (1997).Economic-statistical design of an adaptive
  • X-bar chart, Int. J. Production Economics, 49, 1–15. Ross, S. M. (1970). Applied Probability Models with Optimization Applications, Holden-Day, San Fran- cisco.
  • Saniga, E. M. (1989). Economic statistical control chart designs with an application to X-bar and R charts, Technometrics, 31, 313-320.
  • Tagaras, G. (1994). A Dynamic Programming Approach to the Economic Design of X-bar Charts, IIE Transactions, 26/3, 48–56.
  • Tagaras, G. (1996). Dynamic Control Charts for Finite Production Runs, European Journal of Opera- tional Research, 91, 38-55.
  • Tagaras, G., and Nikolaidis, Y. (2002). Comparing the Effectiveness of Various Bayesian X-bar Control
  • Charts, Operations Research, 50, 878-888. Taylor, H. M. (1965). Markovian sequential replacement processes, Annals of Mathematical Statistics, , 13-21.
  • Taylor, H. M. (1967). Statistical Control of a Gaussian Process, Technometrics, 9, 29–41.
  • Yang, S. F., and Rahim, M. A. (2005). Economic statistical process control for multivariate quality characteristics under Weibull shock model, Int. J. Production Economics, 98, 215-226.
  • Zhang, G., and Berardi, V. (1997). Economic statistical design of X-bar control charts for systems with
  • Weibull in-control times, Computers and Industrial Engineering, 32, 575-586.
Year 2015, Volume: 8 Issue: 2, 74 - 81, 01.06.2015

Abstract

References

  • Banerjee, P. K., and Rahim, M. A. (1988). Economic design of X-bar control charts under Weibull shock models, Technometrics, 30, 407-414.
  • Calabrese, J. M. (1995). Bayesian Process Control for Attributes,Management Science, 41, 637-645.
  • Costa, A. F. B., and Rahim, M. A. (2001). Economic design of X-bar charts with variable parameters: the Markov chain approach,Journal of Applied Statistics, 28/7, 875-885.
  • Duncan, A. J. (1956). The economic design of X-bar charts used to maintain current control of a process,
  • Journal of the American Statistical Association, 51, 228242.
  • Duncan, A. J. (1971). The economic design of 2 charts where there is a multiplicity of assignable causes,
  • Journal of the American Statistical Association, 66, 107-121. Eckles, J. E. (1968). Optimum maintenance with incomplete information, Operational Research, 16, 1067.
  • Faraz, A., Saniga, E., and Kazemzadeh, R. B. (2009). Economic and Economic Statistical Design ofT2
  • Control Chart with two-adaptive Sample Sizes, Journal of Statistical Computation and Simulation, 80, 1316.
  • Girshick, M. A., and Rubin, H. (1952), A Bayes approach to a quality control model,Annals of Mathe- matical Statistics, 23, 114–125.
  • Karaboga, D. (2005). An Idea Based On Honey Bee Swarm For Numerical Optimization, TR-06, October
  • Karaboga, D., and Akay, B. (2009). A comparative study of ArtiŞcial Bee Colony algorithm, Applied
  • Mathematics and Computation, 214, 108-132. Karaboga, D., and Basturk, B. (2007). A powerful and efficient algorithm for numerical function opti- mization: artiŞcial bee colony (ABC) algorithm, J. Glob Optim, 39, 459-471.
  • Karaboga, D., and Basturk, B. (2008). On the performance of artiŞcial bee colony (ABC) algorithm,
  • Applied Soft Computing, 8, 687-697. Lorenzen, T. J., and Vance, L. C. (1986). The economic design of control charts: a uni?ed approach, Technometrics, 28, 3-10.
  • Maikis, V. (2009). Multivariate Bayesian process control for a Şnite production run, European Journal of Operational Research, 194, 795–806.
  • Prabhu, S. S., Mongomery, D. C., and Runger, G. C. (1997).Economic-statistical design of an adaptive
  • X-bar chart, Int. J. Production Economics, 49, 1–15. Ross, S. M. (1970). Applied Probability Models with Optimization Applications, Holden-Day, San Fran- cisco.
  • Saniga, E. M. (1989). Economic statistical control chart designs with an application to X-bar and R charts, Technometrics, 31, 313-320.
  • Tagaras, G. (1994). A Dynamic Programming Approach to the Economic Design of X-bar Charts, IIE Transactions, 26/3, 48–56.
  • Tagaras, G. (1996). Dynamic Control Charts for Finite Production Runs, European Journal of Opera- tional Research, 91, 38-55.
  • Tagaras, G., and Nikolaidis, Y. (2002). Comparing the Effectiveness of Various Bayesian X-bar Control
  • Charts, Operations Research, 50, 878-888. Taylor, H. M. (1965). Markovian sequential replacement processes, Annals of Mathematical Statistics, , 13-21.
  • Taylor, H. M. (1967). Statistical Control of a Gaussian Process, Technometrics, 9, 29–41.
  • Yang, S. F., and Rahim, M. A. (2005). Economic statistical process control for multivariate quality characteristics under Weibull shock model, Int. J. Production Economics, 98, 215-226.
  • Zhang, G., and Berardi, V. (1997). Economic statistical design of X-bar control charts for systems with
  • Weibull in-control times, Computers and Industrial Engineering, 32, 575-586.
There are 27 citations in total.

Details

Other ID JA92UD64FP
Journal Section Research Article
Authors

Masoud Tavakoli This is me

Reza Pourtaheri This is me

Mohammad B. Moghadam. This is me

Publication Date June 1, 2015
Published in Issue Year 2015 Volume: 8 Issue: 2

Cite

APA Tavakoli, M., Pourtaheri, R., & Moghadam., M. B. (2015). ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC). Istatistik Journal of The Turkish Statistical Association, 8(2), 74-81.
AMA Tavakoli M, Pourtaheri R, Moghadam. MB. ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC). IJTSA. June 2015;8(2):74-81.
Chicago Tavakoli, Masoud, Reza Pourtaheri, and Mohammad B. Moghadam. “ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC)”. Istatistik Journal of The Turkish Statistical Association 8, no. 2 (June 2015): 74-81.
EndNote Tavakoli M, Pourtaheri R, Moghadam. MB (June 1, 2015) ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC). Istatistik Journal of The Turkish Statistical Association 8 2 74–81.
IEEE M. Tavakoli, R. Pourtaheri, and M. B. Moghadam., “ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC)”, IJTSA, vol. 8, no. 2, pp. 74–81, 2015.
ISNAD Tavakoli, Masoud et al. “ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC)”. Istatistik Journal of The Turkish Statistical Association 8/2 (June 2015), 74-81.
JAMA Tavakoli M, Pourtaheri R, Moghadam. MB. ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC). IJTSA. 2015;8:74–81.
MLA Tavakoli, Masoud et al. “ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC)”. Istatistik Journal of The Turkish Statistical Association, vol. 8, no. 2, 2015, pp. 74-81.
Vancouver Tavakoli M, Pourtaheri R, Moghadam. MB. ECONOMIC AND ECONOMIC-STATISTICAL DESIGN OF FRS BAYESIAN CONTROL CHART USING MONTE CARLO METHOD AND ARTIFICIAL BEE COLONY ALGORITHM (ABC). IJTSA. 2015;8(2):74-81.