BS ISO 39511:2018

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Sequential sampling plans for inspection by variables for percent nonconforming (known standard deviation)

Published By	Publication Date	Number of Pages
BSI	2018	44

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Categories: 03.120.30 - Application of statistical methods, BSI

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Description

This International Standard specifies sequential sampling plans and procedures for inspection by variables of discrete items.

The plans are indexed in terms of producer’s risk point and the consumer’s risk point. Therefore, they are suitable not only for the purposes of acceptance sampling, but for the more general purpose of the testing of simple statistical hypotheses for proportions.

The purpose of this International Standard is to provide procedures for the sequential assessment of inspection results that may be used to induce the supplier to supply lots of a quality having a high probability of acceptance. At the same time, the consumer is protected by a prescribed upper limit to the probability of accepting a lot (or process) of poor quality.

This International Standard is primarily designed for use under the following conditions:

where the inspection procedure is to be applied to a continuing series of lots of discrete products all supplied by one producer using one production process. In such a case, sampling of particular lots is equivalent to the sampling of the process. If there are different producers or production processes, this International Standard shall be applied to each one separately;
where only a single quality characteristic x of these products is taken into consideration, which must be measurable on a continuous scale;
where the measurement error is negligible (i.e. with a standard deviation no more than 10 % of the process standard deviation);
where production is stable (under statistical control) and the quality characteristic x has a known standard deviation, and is distributed according to a normal distribution or a close approximation to the normal distribution;

CAUTION — The procedures in this International Standard are not suitable for application to lots that have been screened previously for nonconforming items.

where a contract or standard defines an upper specification limit U, a lower specification limit L, or both; an item is qualified as conforming if and only if its measured quality characteristic, x, satisfies the appropriate one of the following inequalities:
1. x ≤ U (i.e. the upper specification limit is not violated);
2. x ≥ L (i.e. the lower specification limit is not violated);
3. and (i.e. neither the upper nor the lower specification limit is violated.)

Inequalities 1) and 2) are called cases with a “single specification limit”, and 3) is the case with “double specification limits”.

In this International Standard, it is assumed that, where double specification limits apply, conformance to both specification limits is either equally important to the integrity of the product or is considered separately for both specification limits. In the first case, it is appropriate to control the combined percentage of product outside the two specification limits. This is referred to as combined control. In the second case, nonconformity beyond each of the limits is controlled separately, and this is referred to as separate control.

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PDF Pages	PDF Title
2	National foreword
6	Foreword
7	Introduction
9	1 Scope
10	2 Normative references 3 Terms and definitions
13	4 Symbols
14	5 Principles of sequential sampling plans for inspection by variables 6 Selection of a sampling plan 6.1 Producer’s risk point and consumer’s risk point
15	6.2 Preferred values of QPR and QCR 6.3 Pre-operation preparations 6.3.1 Obtaining the parameters hA, hR and g 6.3.2 Obtaining the curtailment values 7 Operation of a sequential sampling plan 7.1 Specification of the plan 7.2 Drawing a sample item 7.3 Leeway and cumulative leeway
16	7.4 Choice between numerical and graphical methods 7.5 Numerical method for a single specification limit 7.5.1 Acceptance and rejection values
17	7.5.2 Determination of acceptability 7.6 Graphical method for a single specification limit 7.6.1 Acceptance chart
18	7.6.2 Determination of acceptability
19	7.7 Numerical method for combined control of double specification limits 7.7.1 Maximum values of process standard deviation 7.7.2 Acceptance and rejection values
20	7.7.3 Determination of acceptability 7.8 Graphical method for combined control of double specification limits 7.8.1 Acceptance chart
21	7.8.2 Determination of acceptability
22	7.9 Numerical method for separate control of double specification limits 7.9.1 Maximum values of process standard deviation 7.9.2 Acceptance and rejection values
23	7.9.3 Determination of acceptability
24	7.10 Graphical method for separate control of double specification limits 7.10.1 Acceptance chart
25	7.10.2 Determination of acceptability
26	8 Examples 8.1 Example 1
28	8.2 Example 2
30	8.3 Example 3
31	9 Tables
39	Annex A (informative) Additional information
43	Bibliography

Additional information

Status	Under Review
Pages	44
Publication Date	2018-05-25
ISBN	978 0 580 91243 6
Standard Number	BS ISO 39511:2018
Title	Sequential sampling plans for inspection by variables for percent nonconforming (known standard deviation)
Identical National Standard Of	ISO 39511:2018
Replaces	BS ISO 8423:2008
Descriptors	Mathematical calculations, Statistical distribution, Control charts, Sequential sampling, Sampling tables, Acceptance inspection, Quality control, Measurement characteristics, Assessed quality, Sampling methods, Normal distribution, Inspection by variables, Standard deviation, Inspection
Publisher	BSI
Committee	SS/5
ICS Codes	03.120.30 - Application of statistical methods

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BS ISO 39511:2018

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