Determination of sample size

Sample Size Determination

Before collecting data, it is important to determine how many samples are needed to perform a reliable analysis. This requires finding an adequate sample size n so that the statistics to be estimated have a sufficiently small margin of error and that any statistical tests to be performed have the required power.
Statgraphics Technologies products provide several procedures for determining the required sample size in statistics procedures. They are listed below according to the analysis to be performed:

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Type of Analysis

Statgraphics Centurion 18/19

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Sigma 
express

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stratus

Statgraphics
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StatBeans

One Sample

 

 

 

Two or More Samples

 

 

 

Statistical Tolerance Limits

 

 

 

 

Process Capability Indices

 

 

 

Control Charts

 

 

 

 

Capability Control Chart Design Statlet

 

 

 

 

Screening Experiments

 

 

 

 

Acceptance Sampling

 

 

 

 

Sequential Sampling

 

 

 

 

 

One Sample

Statgraphics will determine required sample sizes for estimating the mean or standard deviation of a normal distribution, the proportion p of a binomial distribution, or the rate parameter of a Poisson distribution. Users may specify either the desired width of a confidence interval for the parameter or the desired power of a one-sided or two-sided hypothesis test.

Two or More Samples

Statgraphics will determine required sample sizes for comparing the means or standard deviations of 2 normal distributions, the difference between 2 proportions, or the difference between 2 rates. It can also determine the required sample size when doing pairwise comparisons in a oneway ANOVA.

Statistical Tolerance Limits

This procedure determines a suitable sample size for estimating statistical tolerance limits. Statistical tolerance limits give a range of values for X such that one may be 100(1-alpha)% confident that P percent of the population from which a data sample comes falls within that range. This procedure determines sample sizes for several types of limits:
1. Cauchy tolerance limits
2. Exponential tolerance limits
3. Gamma tolerance limits
4. Laplace tolerance limits
5. Largest extreme value tolerance limits
6. Lognormal tolerance limits
7. Normal tolerance limits
8. Pareto tolerance limits
9. Smallest extreme value tolerance limits
10. Weibull tolerance limits
11. Nonparametric tolerance limits

Process Capability Indices

This procedure determines a suitable sample size for estimating three capability indices: Cp, Cpk, and Cpm.

Control Charts

This procedure is designed to help determine the appropriate sample size and parameters for common control charts. The design is based on:
1. the magnitude of a shift away from the centerline that you wish to detect.
2. the average acceptable run length if such a shift occurs before an out-of-control signal is generated.
The procedure is most useful for setting up Phase II control charts, i.e., control charts designed to monitor real-time performance of a process once standard operating conditions have been established. Control charts for both variables and attributes are included.

Screening Experiments

The STATGRAPHICS experimental design section can create a wide variety of designs intended to screen out the most important factors affecting a process. Included are two-level factorial designs, fractional factorials, mixed level fractions, irregular fractions, and Plackett-Burman designs. This procedure is designed to help select an appropriate design from that collection, including the number of replicates and centerpoints. Once the desired effect and maximum block size are specified, a list of the best designs of each type is generated. The power curves for each suggested design are also plotted.

Acceptance Sampling

When lots containing a relatively large number of items require inspection, acceptance sampling plans can provide reasonable protection against shipping or receiving an unacceptable fraction of non-conforming items without inspecting 100% of the lot. In an attribute plan, a sample of size n is drawn from a lot of N items and the lot is accepted if the number of non-conforming items in the lot is less than or equal to c. The Statgraphics generates acceptance sampling plans for both attributes and variables.

Sequential Sampling

The Sequential Sampling procedure implements various Sequential Probability Ratio Tests (SPRTs). Unlike statistical tests which have a fixed sample size, the number of samples required by sequential tests is not predetermined. Instead, after each sample is taken, one of 3 decisions is made:
1. Stop the test and reject the null hypothesis.
2. Stop the test and accept the null hypothesis.
3. Continue sampling.
In many cases, the SPRT will come to a decision with fewer samples than would have been required for a fixed size test.