基于混合I型删失数据威布尔模型的可接受抽样计划
Acceptance Sampling Plans with Type-I Hybrid Censoring Scheme of Weibull Distribution
DOI: 10.12677/AAM.2014.34027, PDF, HTML,  被引量 下载: 2,878  浏览: 6,386 
作者: 李嘉伟:中山大学,数学与计算科学学院,广州
关键词: 最大似然估计混合I型删失消费者风险生产者风险MLE Type-I Hybrid Censoring Consumer Risk Producer Risk
摘要: 寿命是产品质量的一个重要指标。根据产品的寿命指标,用于确定产品的接受程度的可靠性试验,被称为可接受抽样计划。本文研究了基于混合I型删失数据的威布尔模型可接受抽样计划。首先,我们给出了威布尔分布尺度参数最大似然估计的精确分布。进而根据枢轴量的精确分布,在消费者与生产者风险可控的条件下,我们给出了可接受抽样计划的执行方法。最后为了展示本文的方法,我们给出了一些可接受抽样计划的数值模拟结果。
Abstract: Lifetime is an important quality variable of a product. Sampling plans used to determine the ac-ceptability of a product, with respect to its lifetime, are known as acceptance sampling plans. In this paper, we discuss acceptance sampling plans of Weibull distribution with considering the Type-I hybrid censoring schemes. Firstly, we give the exact conditional distribution of the maximum likelihood estimator (MLE) of the scale parameter. Secondly, using the exact distribution of a pivotal quantity, we establish an acceptance sampling procedure satisfying the producer and consumer risks. Finally, some numerical results are tabulated for illustration.
文章引用:李嘉伟. 基于混合I型删失数据威布尔模型的可接受抽样计划[J]. 应用数学进展, 2014, 3(4): 184-191. http://dx.doi.org/10.12677/AAM.2014.34027

参考文献

[1] Epstein, B. (1954) Truncated life tests in the exponential case. Annals of the Institute of Statistical Mathematics, 25, 55-564.
[2] Fairbanks, K., Madson, R. and Dykstra, R. (1982) A condence interval for an exponential parameter from a hybrid life test. Journal of the American Statistical Association, 77, 137-140.
[3] Chen, S. and Bhattacharya, G.K. (1988) Exact condence bounds for an exponential parameter under hybrid censoring. Communications in Statis-tics—Theory and Methods, 17, 1857-1870.
[4] Gupta, R.D. and Kundu, D. (1998) Hybrid censoring schemes with exponential failure distribution. Communications in Statistics—Theory and Methods, 27, 3065-3083.
[5] Childs, A., Chandrasekhar, B., Balakrishnan, N. and Kundu, D. (2003) Exact likelihood inference based on type-I and type-II hybrid censored samples from the exponential distribution. Annals of the Institute of Statistical Mathematics, 55, 319-330.
[6] Balakrishnan, N. and Iliopoulos, G. (2009) Stochastic monotonicity of the MLE of exponential mean under different censoring schemes. Annals of the Institute of Statistical Mathematics, 61, 753-772.
[7] Jeong, H.S., Park, J.I. and Yum, B.J. (1996) Development of (r; T) hybrid sampling plans for exponential lifetime distributions. Journal of Applied Statistics, 23, 601-607.
[8] Fertig, K.W. and Mann, N.R. (1980) Life test sampling plans for two-parameter Weibull populations. Technometrics, 22, 165-177.
[9] Chen, J., Chou, W., Wu, H. and Zhou, H. (2004) Designing acceptance sampling schemes for life testing with mixed censoring. Naval Research Logistics, 51, 597-612.
[10] Kim, M. and Yum, B.J. (2009) Life test sampling plans for Weibull distributed lifetimes under accelerated hybrid censoring. Statistical Papers, 52, 327-342.
[11] Tsai, T.R. and Lin, C.W. (2008) Acceptance sampling plans under progressive interval censoring with likelihood ratio. Statistical Papers, 51, 259-271.
[12] Tse, S.K. and Yang, C. (2003) Reliability sampling plans for the Weibull distribution under Type-II progressive censoring with binomial removals. Journal of Applied Statistics, 30, 709-718.
[13] Ng, H.K.T., Chan, P.S. and Balakrishnan, N. (2004) Optimal progressive censoring plans for the Weibull distribution. Technometrics, 46, 470-481.
[14] Balasooriya, U. and Low, C.K. (2004) Competing causes of failure and reliability tests for Weibull lifetimes under Type-I progressive censoring. IEEE Transactions on Reliability, 53, 29-36.
[15] Tsai, T.R. and Wu, S.J. (2006) Acceptance sampling based on truncated life tests for generalized Rayleigh distribution. Journal of Applied Statistics, 33, 595-600.

为你推荐