lengthAAS: Expected length and sum of length of Adjusted ArcSine method

Description Usage Arguments Details Value References See Also Examples

View source: R/311.Expec_Leng_ADJ_All.R

Description

Expected length and sum of length of Adjusted ArcSine method

Usage

1
lengthAAS(n, alp, h, a, b)

Arguments

n

- Number of trials

alp

- Alpha value (significance level required)

h

- Adding factor

a

- Beta parameters for hypo "p"

b

- Beta parameters for hypo "p"

Details

Evaluation of adjusted Wald-type interval for the arcsine transformation of the parameter p using sum of length of the n + 1 intervals

Value

A dataframe with

sumLen

The sum of the expected length

explMean

The mean of the expected length

explSD

The Standard Deviation of the expected length

explMax

The max of the expected length

explLL

The Lower limit of the expected length calculated using mean - SD

explUL

The Upper limit of the expected length calculated using mean + SD

References

[1] 1998 Agresti A and Coull BA. Approximate is better than "Exact" for interval estimation of binomial proportions. The American Statistician: 52; 119 - 126.

[2] 1998 Newcombe RG. Two-sided confidence intervals for the single proportion: Comparison of seven methods. Statistics in Medicine: 17; 857 - 872.

[3] 2008 Pires, A.M., Amado, C. Interval Estimators for a Binomial Proportion: Comparison of Twenty Methods. REVSTAT - Statistical Journal, 6, 165-197.

See Also

Other Expected length of adjusted methods: PlotexplAAS, PlotexplAAll, PlotexplALR, PlotexplALT, PlotexplASC, PlotexplATW, PlotexplAWD, PlotlengthAAS, PlotlengthAAll, PlotlengthALR, PlotlengthALT, PlotlengthASC, PlotlengthATW, PlotlengthAWD, lengthAAll, lengthALR, lengthALT, lengthASC, lengthATW, lengthAWD

Examples

1
2
n= 10; alp=0.05; h=2;a=1;b=1;
lengthAAS(n,alp,h,a,b)

proportion documentation built on May 1, 2019, 7:54 p.m.