Predictive design of single sampling attribute plans |
| |
Authors: | K. Govindaraju |
| |
Affiliation: | 1. Institute of Fundamental Sciences, Massey University, Palmerston North, New Zealandk.govindaraju@massey.ac.nz |
| |
Abstract: | The design of a sampling inspection plan is usually based on the properties of the operating characteristic curve. This approach ensures that the plan has adequate power to discriminate a lot of acceptable quality from a lot rejectable quality. However, the designed plan need not necessarily have adequate predictive power when the sentenced lot is re-inspected using the same sampling plan. The paper introduces a new design approach for the single sampling attributes plan ensuring the decision of acceptance or rejection is consistent for both current and any future inspection of the lot. The proposed design controls the risks of a future sample leading to a contradictory decision of acceptance or rejection of the lot. An increase in sample size is required to achieve the required predictive power if the true lot quality fails to be at very low fraction non-conforming levels. A Bayesian analysis is also provided. |
| |
Keywords: | Attribute inspection predictive design quality levels risk analysis |
|
|