Development of Bayesian Single Sampling Plan Involving Risk Minimization through Minimum Angle Method

Current Topics on Mathematics and Computer Science Vol. 11 Pub Date : 2021-09-20 DOI:10.9734/bpi/ctmcs/v11/4458f

V. Kaviyarasu, P. Sivakumar

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Abstract

This chapter presented a procedure and tables for a Bayesian single sampling plan based on the Gamma-Zero Inflated Poisson distribution involving minimum angle method to reduce the producer's risk and consumer’s risk for specified acceptance quality level and limiting quality level. In recent years, every manufacturing industry using technological advancements to detect product defects and rectifying them in the initial stages of production. It is possible to reduce the number of defective products early on using such technologies. Therefore, the occurrence of non-defects would be more frequent in the sampling inspection. However, random fluctuations in the production processes may lead some products to an imperfect state. In this case, one can consider the appropriate probability distribution of the number of defects to be a Gamma-Zero Inflated Poisson (G-ZIP) distribution. The optimal plan parameters for the proposed sampling plan are given to determine its minimum angle values, which are illustrated with suitable examples. Necessary tables are constructed to facilitate quality control engineers.

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基于最小角度法的风险最小化贝叶斯单采样方案的开发

本章给出了基于gamma - 0膨胀泊松分布的最小角度法的贝叶斯单次抽样方案的程序和表格，以降低指定验收质量水平和限制质量水平下生产者和消费者的风险。近年来，每个制造业都在利用技术进步来检测产品缺陷并在生产的初始阶段进行纠正。使用这些技术可以在早期减少不良产品的数量。因此，在抽样检验中，非缺陷的出现会更加频繁。然而，生产过程中的随机波动可能导致一些产品处于不完美状态。在这种情况下，可以认为缺陷数量的适当概率分布是gamma - 0膨胀泊松(G-ZIP)分布。给出了所提出的采样方案的最佳方案参数，以确定其最小角度值，并通过合适的实例进行了说明。建立必要的表格以方便质量控制工程师。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current Topics on Mathematics and Computer Science Vol. 11

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