Ching-Hsin Wang & Kuen-Suan Chen. (2020) New process yield index of asymmetric tolerances for bootstrap method and six sigma approach. International Journal of Production Economics 219, pages 216-223.
Crossref
Patrycjusz Stoma, Monika Stoma, Agnieszka Dudziak & Jacek Caban. (2019) Bootstrap Analysis of the Production Processes Capability Assessment. Applied Sciences 9:24, pages 5360.
Crossref
Zainab Abbasi Ganji. (2018) Multivariate process incapability vector. Quality and Reliability Engineering International 35:4, pages 902-919.
Crossref
George J. Besseris. (2019) Evaluation of robust scale estimators for modified Weibull process capability indices and their bootstrap confidence intervals. Computers & Industrial Engineering 128, pages 135-149.
Crossref
Mahendra Saha, Sumit Kumar, Sudhansu S. Maiti & Abhimanyu Singh Yadav. (2018) Asymptotic and bootstrap confidence intervals of generalized process capability index $$C_{py}$$ C py for exponentially distributed quality characteristic. Life Cycle Reliability and Safety Engineering 7:4, pages 235-243.
Crossref
Moutushi Chatterjee & Ashis Kumar Chakraborty. (2017) Unification of some multivariate process capability indices for asymmetric specification region. Statistica Neerlandica 71:4, pages 286-306.
Crossref
Muhammad Kashif, Muhammad Aslam, G. Srinivasa Rao, Ali Hussein AL-Marshadi & Chi-Hyuck Jun. (2017) Bootstrap Confidence Intervals of the Modified Process Capability Index for Weibull distribution. Arabian Journal for Science and Engineering 42:11, pages 4565-4573.
Crossref
George N Kenyon, R. Samual Sale, Kurt Hozak & Paul Chiou. (2016)
Development of the yield-based process capability index,
C
py
, to flexibly and accurately measure conformance
. International Journal of Quality & Reliability Management 33:7, pages 882-899.
Crossref
Amy H. I. Lee, Chien-Wei Wu & Yen-Wen Chen. (2015) A modified variables repetitive group sampling plan with the consideration of preceding lots information. Annals of Operations Research 238:1-2, pages 355-373.
Crossref
Ashis Kumar Chakraborty & Moutushi Chatterjee. 2016. Quality and Reliability Management and Its Applications. Quality and Reliability Management and Its Applications
47
81
.
Zainab Abbasi Ganji & Bahram Sadeghpour Gildeh. (2015) On the fuzzy multivariate process capability vector. On the fuzzy multivariate process capability vector.
Moutushi Chatterjee & Ashis Kumar Chakraborty. (2013)
Exact Relationship of
C
″
pk
with Proportion of Nonconformance and Some Other Properties of
C
″
p
(
u
,
v
)
. Quality and Reliability Engineering International 30:7, pages 1023-1034.
Crossref
Richard I. Post. 2014. Wiley StatsRef: Statistics Reference Online. Wiley StatsRef: Statistics Reference Online.
Warren G. Gilchrist. 2014. Wiley StatsRef: Statistics Reference Online. Wiley StatsRef: Statistics Reference Online.
Joong Jae Cho, Tae-Young Heo & Jun Chel Jeong. (2014)
Statistical Tests for Process Capability Index C
p
Based on Mixture Normal Process
. Journal of the Korean society for quality management 42:2, pages 209-219.
Crossref
W. L. Pearn, Ching-Ho Yen & Dong-Yuh Yang. (2010) Production yield measure for multiple characteristics processes based on $${S_{pk}^T}$$ under multiple samples. Central European Journal of Operations Research 20:1, pages 65-85.
Crossref
Ching-Hsin Wang, Kuen-Suan Chen, Shun-Chieh Wu & Peng-Hsiang Chang. 2012. Advances in Electronic Commerce, Web Application and Communication. Advances in Electronic Commerce, Web Application and Communication
419
428
.
Hyo-Il Park. (2011)
A Modified Definition on the Process Capability Index C
pk
Based on Median
. Communications for Statistical Applications and Methods 18:4, pages 527-535.
Crossref
Thomas P. Ryan. 2011. Statistical Methods for Quality Improvement. Statistical Methods for Quality Improvement
225
259
.
Joong-Jae Cho & Byoung-Sun Park. (2011)
On the Plug-in Estimator and its Asymptotic Distribution Results for Vector-Valued Process Capability Index C
pmk
. Communications for Statistical Applications and Methods 18:3, pages 377-389.
Crossref
Jeh‐Nan Pan, Tzu‐Chun Kuo & Abraham Bretholt. (2010) Developing a new key performance index for measuring service quality. Industrial Management & Data Systems 110:6, pages 823-840.
Crossref
Ya-Chen Hsu, W.L. Pearn & Ya-Fei Chuang. (2009) Sample size determination for production yield estimation with multiple independent process characteristics. European Journal of Operational Research 196:3, pages 968-978.
Crossref
Snigdhansu Chatterjee & Peihua Qiu. (2009) Distribution-free cumulative sum control charts using bootstrap-based control limits. The Annals of Applied Statistics 3:1.
Crossref
Chien-Wei Wu. (2009) Decision-making in testing process performance with fuzzy data. European Journal of Operational Research 193:2, pages 499-509.
Crossref
Chien-Wei Wu, W.L. Pearn & Samuel Kotz. (2009) An overview of theory and practice on process capability indices for quality assurance. International Journal of Production Economics 117:2, pages 338-359.
Crossref
Ya-Chen Hsu, W.L. Pearn & Pei-Ching Wu. (2008) Capability adjustment for gamma processes with mean shift consideration in implementing Six Sigma program. European Journal of Operational Research 191:2, pages 517-529.
Crossref
Jau-Chuan Ke, Yunn-Kuang Chu & Jer-Yan Lin. (2008) Comparing confidence limits for short-run process incapability index Cpp. Physica A: Statistical Mechanics and its Applications 387:13, pages 3227-3238.
Crossref
Seungwook Park. (2008) Proposal of a New Process Capability Index Based on Dollar Loss by Defects. Asian Journal on Quality 9:1, pages 41-54.
Crossref
Chien-Wei Wu. (2008) Assessing process capability based on Bayesian approach with subsamples. European Journal of Operational Research 184:1, pages 207-228.
Crossref
Tomas Hrycej & Christian Manuel Strobel. 2008. Computational Intelligence in Automotive Applications. Computational Intelligence in Automotive Applications
89
99
.
Richard I. Post. 2007. Encyclopedia of Statistics in Quality and Reliability. Encyclopedia of Statistics in Quality and Reliability.
Alan Polansky. 2007. Observed Confidence Levels. Observed Confidence Levels
251
262
.
Dja‐Shin Wang, Tong‐Yuan Koo & Chao‐Yu Chou. (2007)
On the bootstrap confidence intervals of the capability index
C
pk
for multiple process streams
. Engineering Computations 24:5, pages 473-485.
Crossref
K. S. Chen, M. L. Huang & P. L. Chang. (2005) Performance evaluation on manufacturing times. The International Journal of Advanced Manufacturing Technology 31:3-4, pages 335-341.
Crossref
Chao-Yu Chou, Yu-Chang Lin, Chun-Lang Chang & Chung-Ho Chen. (2006) On the bootstrap confidence intervals of the process incapability index Cpp. Reliability Engineering & System Safety 91:4, pages 452-459.
Crossref
M.H. Shu, Chih-Hsiung Wang & B.M. Hsu. (2005) A review and extensions of sample size determination for estimating process precision and loss with a designated accuracy ratio. The International Journal of Advanced Manufacturing Technology 27:9-10, pages 1038-1046.
Crossref
Warren G. Gilchrist. 2004. Encyclopedia of Statistical Sciences. Encyclopedia of Statistical Sciences.
Jann-Pygn Chen. (2005) Comparing four lower confidence limits for process yield index Spk. The International Journal of Advanced Manufacturing Technology 26:5-6, pages 609-614.
Crossref
W.L. Pearn, Y.C. Chang & Chien-Wei Wu. (2004) Bootstrap approach for estimating process quality yield with application to light emitting diodes. The International Journal of Advanced Manufacturing Technology 25:5-6, pages 560-570.
Crossref
W.L. Pearn, C.W. Wu & K.H. Wang. (2004) Capability measure for asymmetric tolerance non-normal processes applied to speaker driver manufacturing. The International Journal of Advanced Manufacturing Technology 25:5-6, pages 506-515.
Crossref
Chien-Wei Wu & W.L. Pearn. (2004) Measuring manufacturing capability for couplers and wavelength division multiplexers. The International Journal of Advanced Manufacturing Technology 25:5-6, pages 533-541.
Crossref
JAE-HAK LIM, SANG WOOK SHIN, DAE KYUNG KIM & DONG HO PARK. (2012) BOOTSTRAP CONFIDENCE INTERVALS FOR STEADY-STATE AVAILABILITY. Asia-Pacific Journal of Operational Research 21:03, pages 407-419.
Crossref
Warren G. Gilchrist. 2004. Encyclopedia of Statistical Sciences. Encyclopedia of Statistical Sciences.
Jann‐Pygn Chen & K.S. Chen. (2004)
Comparison of two process capabilities by using indices
C
pm
: an application to a color STN display
. International Journal of Quality & Reliability Management 21:1, pages 90-101.
Crossref
Joong-Jae Cho & Byoung-Sun Park. (2003) Bootstrapping Vector-valued Process Capability Indices. Communications for Statistical Applications and Methods 10:2, pages 399-422.
Crossref
W.L. Pearn & Ming-Hung Shu. (2003) Manufacturing capability control for multiple power-distribution switch processes based on modified Cpk MPPAC. Microelectronics Reliability 43:6, pages 963-975.
Crossref
Alberto W. Ramos & Linda Lee Ho. (2003) Procedimentos inferenciais em índices de capacidade para dados autocorrelacionados via bootstrap. Production 13:3, pages 50-62.
Crossref
T. V. Ramanathan, A. D. Dharmadhikari & Bovas Abraham. (2003) Nonparametric Capability Indices. Economic Quality Control 18:1.
Crossref
Alan M. Polansky & S.N.U.A. Kirmani. 2003. Statistics in Industry. Statistics in Industry
625
656
.
S. Balamurali & M. Kalyanasundaram. (2002)
Bootstrap lower confidence limits for the process capability indices C
p
, C
pk
and C
pm
. International Journal of Quality & Reliability Management 19:8/9, pages 1088-1097.
Crossref
Young Soon Chang, In Su Choi & Do Sun Bai. (2002) Process capability indices for skewed populations. Quality and Reliability Engineering International 18:5, pages 383-393.
Crossref
Jann-Pygn Chen & W.L. Pearn. (2002) Testing process performance based on the yield: an application to the liquid-crystal display module. Microelectronics Reliability 42:8, pages 1235-1241.
Crossref
LS Zimmer, NF Hubele & WJ Zimmer. (2001)
Confidence intervals and sample size determination for
C
pm
. Quality and Reliability Engineering International 17:1, pages 51-68.
Crossref
K. S. CHENW. L. PEARNP. C. LIN. (2011)
A NEW GENERALIZATION OF C
pm
FOR PROCESSES WITH ASYMMETRIC TOLERANCES
. International Journal of Reliability, Quality and Safety Engineering 06:04, pages 383-398.
Crossref
W.L. Pearn, K.S. Chen & G.H. Lin. (1999) A generalization of Clements’ method for non‐normal Pearsonian processes with asymmetric tolerances. International Journal of Quality & Reliability Management 16:5, pages 507-522.
Crossref
Sameer Prasad & Ayhan Calis. (1999) Capability indices for material balance accounting. European Journal of Operational Research 114:1, pages 93-104.
Crossref
Lee‐Ing Tong & Jann‐Pygn Chen. (1998) Lower confidence limits of process capability indices for non‐normal process distributions. International Journal of Quality & Reliability Management 15:8/9, pages 907-919.
Crossref
Sameer Prasad & Tom Bramorski. (1998) Robust process capability indices. Omega 26:3, pages 425-435.
Crossref
S. Bittanti, M. Lovera & L. Moiraghi. (1998) Application of non-normal process capability indices to semiconductor quality control. IEEE Transactions on Semiconductor Manufacturing 11:2, pages 296-303.
Crossref
D.L. Stanley, R.F. Duncan & G.W. Smith. (1997) A test platform implementing SPC in a low-volume, high-mix test department. A test platform implementing SPC in a low-volume, high-mix test department.
J. Fink & H. Wolff. 1997. Frontiers in Statistical Quality Control 5. Frontiers in Statistical Quality Control 5
207
226
.
Kuey Chung Choi, Kyung Hyun Nam & Dong Ho Park. (1996) Estimation of capability index based on bootstrap method. Microelectronics Reliability 36:9, pages 1141-1153.
Crossref