Document Zbl 07887584

Khatun, Mahfuza; Khoo, Michael B. C.; Saha, Sajal; Castagliola, Philippe

A new distribution-free adaptive sample size control chart for a finite production horizon and its application in monitoring fill volume of soft drink beverage bottles. (English) Zbl 07887584

Appl. Stoch. Models Bus. Ind. 37, No. 1, 84-97 (2021).

MSC:

62-XX

Statistics

Keywords:

finite production horizon; Markov chain; nonparametric; truncated average run length; variable sample size

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Full Text: DOI

References:

[1]	ParentEAJr. Sequential Ranking Procedures. Technical Report No. 80. Stanford, CA: Department of Statistics, Stanford University; 1965.
[2]	ReynoldsMRJr. A Sequential Nonparametric Test for Symmetry with Applications to Process Control (No. TR‐148). Stanford, CA: Department of Operations Research, Stanford University; 1972.
[3]	BakirST. Nonparametric Procedures for Process Control [PhD dissertation]. Blacksburg, VA: Department of Statistics, Virginia Polytechnic Institute and State University; 1977.
[4]	BakirST, ReynoldsMRJr. A nonparametric procedure for process control based on within‐group ranking. Dent Tech. 1779;21:175‐183. · Zbl 0401.93052
[5]	ParkC. Some control procedures useful for one‐sided asymmetrical distributions. J Korean Stat Soc. 1985;14:76‐86.
[6]	AminRW, SearcyAJ. A nonparametric exponentially weighted moving average control scheme. Commun Stat Simul C. 1991;20:1049‐1072. · Zbl 0850.62403
[7]	AminRW, ReynoldsMRJr, SaadB. Nonparametric quality control charts based on the sign statistic. Commun Stat Theor M.1995;24:1597‐1623. · Zbl 0850.62746
[8]	AminRW, WidmaierO. Sign control charts with variable sampling intervals. Commun Stat Theor M. 1999;28:1961‐1985. · Zbl 0942.62131
[9]	ChakrabortiS, Van der LaanP, BakirST. Nonparametric control charts: an overview and some results. J Qual Technol.2001;33:304‐309.
[10]	BakirST. A distribution‐free Shewhart quality control chart based on signed‐ranks. Qual Eng.2004;16:613‐623.
[11]	BakirST. Distribution‐free quality control charts based on signed‐rank‐like statistics. Commun Stat Theor M. 2006;35:743‐757. · Zbl 1093.62112
[12]	ChakrabortiS, EryilmazS. A nonparametric Shewhart‐type signed‐rank control chart based on runs. Commun Stat Simul C.2007;36:335‐356. · Zbl 1118.62129
[13]	ChakrabortiS, GrahamMA. Nonparametric Control Charts, Encyclopedia of Quality and Reliability. New York, NY: John Wiley & Sons; 2007.
[14]	DasN, BhattacharyaA. A new non‐parametric control chart for controlling variability. Qual Technol Quant M. 2008;5:351‐361.
[15]	LiSY, TangLC, NgSH. Nonparametric CUSUM and EWMA control charts for detecting mean shifts. J Qual Technol. 2010;42:209‐226.
[16]	HumanSW, ChakrabortiS, SmitCF. Nonparametric Shewhart‐Type Sign Control Charts Based on Runs. Commun Stat Theor M. 2010;39:2046‐2062. · Zbl 1318.62340
[17]	GrahamMA, ChakrabortiS, HumanSW. A nonparametric EWMA sign chart for location based on individual measurements. Qual Eng. 2011;23:227‐241.
[18]	YangSF, LinJS, ChengSW. A new nonparametric EWMA sign control chart. Expert Syst Appl. 2011;38:6239‐6243.
[19]	AslamM, AzamM, JunCH. A new exponentially weighted moving average sign chart using repetitive sampling. J Process Contr. 2014;24:1149‐1153.
[20]	LuSL. An extended nonparametric exponentially weighted moving average sign control chart. Qual Reliab Eng Int. 2015;31:3‐13.
[21]	AsghariS, Sadeghpour GildehB, AhmadiJ, MohtashamiBG. Sign control chart based on ranked set sampling. Qual Technol Quant M. 2018;15:568‐588.
[22]	ChakrabortiS, GrahamMA. Nonparametric (distribution‐free) control charts: an updated overview and some results. Qual Eng. 2019;31:523‐544.
[23]	LadanyS. Optimal use of control charts for controlling current production. Manage Sci. 1973;19:763‐772.
[24]	LadanySP, BediDN. Selection of the optimal setup policy. Nav Res Logist. 1976;23:219‐233. · Zbl 0325.90023
[25]	Del CastilloE, MontgomeryDC. Optimal design of control charts for monitoring short production runs. Econ Qual Contr. 1993;8:225‐240. · Zbl 0925.62427
[26]	Del CastilloE, MontgomeryDC. A general model for the optimal economic design of \(\overline{X}\) charts used to control short or long run processes. IIE Trans. 1996;28:193‐201.
[27]	CalabreseJM. Bayesian process control for attributes. Manage Sci. 1995;41:637‐645. · Zbl 0836.90080
[28]	TagarasG. Dynamic control charts for finite production runs. Eur J Oper Res. 1996;91:38‐55. · Zbl 0947.90515
[29]	TagarasG, NikolaidisY. Comparing the effectiveness of various Bayesian \(\overline{X}\) control charts. Oper Res. 2002;50:878‐888. · Zbl 1163.62354
[30]	NenesG, TagarasG. The economically designed two‐sided Bayesian \(\overline{X}\) control chart. Eur J Oper Res. 2007;183:263‐277. · Zbl 1128.62133
[31]	KooliI, LimamM. Bayesian np control charts with adaptive sample size for finite production runs. Qual Reliab Eng Int. 2009;25:439‐448.
[32]	NenesG, TagarasG. Evaluation of CUSUM charts for finite‐horizon processes. Commun Stat Simul C. 2010;39:578‐597. · Zbl 1192.62267
[33]	CelanoG, CastagliolaP, TrovatoE, FicheraS. Shewhart and EWMA t control charts for short production runs. Qual Reliab Eng Int.2011;27:313‐326.
[34]	CelanoG, CastagliolaP, FicheraS, NenesG. Performance of t control charts in short runs with unknown shift sizes. Comput Ind Eng. 2013;64:56‐68.
[35]	LiY, PuX. On the performance of two‐sided control charts for short production runs. Qual Reliab Eng Int.2012;28:215‐232.
[36]	CastagliolaP, AmdouniA, TalebH, CelanoG. One‐sided Shewhart‐type charts for monitoring the coefficient of variation in short production runs. Qual Technol Quant M.2015;12:53‐67.
[37]	MontgomeryDC. Introduction to Statistical Quality Control. 6th ed.New York, NY: John Wiley & Sons; 2009. · Zbl 1274.62015
[38]	CelanoG, CastagliolaP, ChakrabortiS, NenesG. The performance of the Shewhart sign control chart for finite horizon processes. Int J Adv Manuf Tech. 2016;84:1497‐1512.
[39]	CelanoG, CastagliolP, ChakrabortiS, NenesG. On the implementation of the Shewhart sign control chart for low‐volume production. Int J Prod Res. 2016;54:5886‐5900.
[40]	CastagliolaP, CelanoG, FicheraS, NenesG. The variable sample size t control chart for monitoring short production runs. Int J Adv Manuf Tech.2013;66:1353‐1366.
[41]	NenesG, CastagliolaP, CelanoG, PanagiotidouS. The variable sampling interval control chart for finite‐horizon processes. IIE Trans. 2014;46:1050‐1065.
[42]	AmdouniA, CastagliolaP, TalebH, CelanoG. Monitoring the coefficient of variation using a variable sample size control chart in short production runs. Int J Adv Manuf Tech. 2015;81:1‐14.
[43]	ParkC, ChoiK. Economic design of control charts with variable sample size schemes. Paper presented at: Annual Meeting of the American Statistical Association; 1992; Boston, MA.
[44]	ParkC, ReynoldsMR. Economic design of a variable sample size‐chart. Commun Stat Simul C.1994;23:467‐483. · Zbl 0825.62040
[45]	ParkC, ReynoldsMR. Economic design of a variable sampling rate \(\overline{X}\) chart. J Qual Technol.1999;31:427‐443.
[46]	CroasdaleR. Control charts for a double‐sampling scheme based on average production run lengths. Int J Prod Res. 1974;12:585‐592.
[47]	DaudinJJ. Double sampling \(\overline{X}\) charts. J Qual Technol. 1992;24:78‐87.
[48]	IriantoD, ShinozakiN. An optimal double sampling \(\overline{X}\) control chart. Int J Ind Eng Theory. 1998;5:226‐234.
[49]	CarotV, JabaloyesJM, CarotT. Combined double sampling and variable sampling interval \(\overline{X}\) chart. Int J Prod Res. 2002;40:2175‐2186. · Zbl 1046.62125
[50]	HeD, GrigoryanA. Construction of double sampling S control charts for agile manufacturing. Qual Reliab Eng Int.2002;18:343‐355.

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