Chaloner, Kathryn; Larntz, Kinley Bayesian design for accelerated life testing. (English) Zbl 0781.62149 J. Stat. Plann. Inference 33, No. 2, 245-259 (1992). Cited in 20 Documents MSC: 62N05 Reliability and life testing 62F15 Bayesian inference 62K05 Optimal statistical designs Keywords:accelerated life tests; lognormal distributions; Weibull distributions; quantiles; type I censoring; locally optimal designs; reliability testing Software:AS 218 PDF BibTeX XML Cite \textit{K. Chaloner} and \textit{K. Larntz}, J. Stat. Plann. Inference 33, No. 2, 245--259 (1992; Zbl 0781.62149) Full Text: DOI References: [1] Blackwell, L.M.; Singpurwalla, N.D., Inference from accelerated life tests using filtering in coloured noise, J. roy. statist. soc., 50, 281-292, (1988) [2] Chaloner, K., An approach to design for generalized linear models, (), 3-12 [3] Chaloner, K.; Larntz, K., Optimal Bayesian experimental design applied to logistic regression experiments, J. statist. plann. inference, 21, 191-208, (1989) · Zbl 0666.62073 [4] Chernoff, H., Locally optimal designs for estimating parameters, Ann. math. statist., 24, 586-602, (1953) · Zbl 0053.10504 [5] Chernoff, H., Optimal accelerated life designs for estimation, Technometrics, 4, 381-408, (1962) · Zbl 0107.35803 [6] Cook, R.D.; Nachtsheim, C.J., Model robust, linear-optimal designs, Technometrics, 24, 49-54, (1982) · Zbl 0483.62063 [7] Escobar, L.A.; Meeker, W.Q., Elements of the Fisher information matrix for the smallest extreme value distribution and censored data, Appl. statist., 35, 80-86, (1986) · Zbl 0601.62126 [8] Fedorov, V.V.; Studden, W.J.; Klimko, E.M., The theory of optimum experiments, (1972), Academic Press New York [9] Läuter, E., Experimental design in a class of models, Math. operationsforsch. statist., 5, 379-396, (1974) · Zbl 0297.62056 [10] Lawless, J.F., Statistical models and methods for lifetime data, (1982), Wiley New York · Zbl 0541.62081 [11] Meeker, W.Q., A comparison of accelerated life test plans for Weibull and lognormal distributions and type I censoring, Technometrics, 26, 157-171, (1984) · Zbl 0549.62067 [12] Meeker, W.Q.; Hahn, G.J., How to plan an accelerated life test, () [13] Nelder, J.A.; Mead, R., A simplex method for function minimization, Comput. J., 7, 308-313, (1965) · Zbl 0229.65053 [14] Nelson, W., Applied life data analysis, (1982), Wiley New York · Zbl 0579.62089 [15] Nelson, W., Accelerated testing, (1990), Wiley New York [16] Nelson, W.; Kielpinski, T.J., Theory for optimum censored accelerated life tests for normal and lognormal life distributions, Technometrics, 18, 105-114, (1976) · Zbl 0318.62081 [17] Nelson, W.; Meeker, W.Q., Theory for optimum accelerated life tests for Weibull and extreme value distributions, Technometrics, 20, 171-177, (1978) · Zbl 0391.62074 [18] Sethuraman, J.; Singpurwalla, N.D., Testing hypotheses for distributions in accelerated life tests, J. amer. statist. assoc., 77, 204-208, (1982) [19] Shaked, M.; Singpurwalla, N.D., A Bayesian approach for quantile and response probability estimation with applications to reliability, Ann. inst. statist. math., 42, 1-19, (1990) · Zbl 0703.62038 [20] Viertl, R., Statistical methods in accelerated life testing, (1988), Vandenhoeck and Ruprecht Göttingen · Zbl 0665.62098 [21] Whittle, P., Some general points in the theory and construction of D-optimum experimental designs, J. roy. statist. soc. ser. B, 35, 123-130, (1973) · Zbl 0282.62065 This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. It attempts to reflect the references listed in the original paper as accurately as possible without claiming the completeness or perfect precision of the matching.