Compară metode

Examinează metodele selectate una lângă alta; rândurile care diferă sunt evidențiate.

	Analiza hibridă a capabilității proceselor ×	Analiza robustă a capabilității procesului ×
Domeniu	Design experimental	Design experimental
Familie	Process / pipeline	Process / pipeline
Anul apariției	1990s–2000s	1990s–2000s
Autorul original≠	Various; systematised through extensions of Kane (1986) and Pearn, Kotz & Johnson (1992)	Extended from classical PCA (Kane, 1986; Juran, 1974) via robust statistics (Huber, 1981); formalized for capability indices by Tong & Chen (1998) and Pearn & Kotz (1994)
Tip≠	Quantitative process quality assessment	Quantitative quality engineering method
Sursa seminală≠	Pearn, W. L., Kotz, S., & Johnson, N. L. (1992). Distributional and inferential properties of process capability indices. Journal of Quality Technology, 24(4), 216–231. DOI ↗	Maravelakis, P. E., Bersimis, S., Panaretos, J., & Psarakis, S. (2004). Identifying the out of control variable in a multivariate control chart. Communications in Statistics - Theory and Methods, 33(10), 2499–2510. link ↗
Denumiri alternative	hybrid PCA, integrated process capability analysis, combined capability index analysis, multi-method process capability assessment	Robust PCA, Robust Capability Indices, Outlier-Resistant Capability Analysis, Robust Cpk Analysis
Înrudite	6	6
Rezumat≠	Hybrid process capability analysis combines two or more capability assessment techniques — for example, classical indices (Cp, Cpk) with fuzzy logic, bootstrap inference, or Bayesian estimation — to overcome the limitations of any single approach. By integrating complementary methods, it delivers more robust capability statements for non-normal, asymmetric, or short-run processes where standard indices alone would mislead quality decisions.	Robust process capability analysis extends classical capability indices (Cp, Cpk, Ppk) by replacing the sample mean and standard deviation with robust location and scale estimators — such as the median, trimmed mean, MAD, or IQR-based spread — so that outliers and non-normal process distributions do not inflate or distort the capability estimate. The result is a more reliable assessment of whether a manufacturing or service process can consistently meet specification limits.
ScholarGateSet de date ↗	v1 2 Surse PUBLISHED	v1 2 Surse PUBLISHED

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