binom.conf.int: Confidence intervals for binomial counts or proportions

Description

Calculates confidence intervals for binomial counts or proportions

Usage

binom.exact(x, n, conf.level = 0.95)
binom.wilson(x, n, conf.level = 0.95)
binom.approx(x, n, conf.level = 0.95)

Arguments

number of successes in n trials, can be a vector

number of Bernoulli trials, can be a vector

conf.level

confidence level (default = 0.95), can be a vector

Value

This function returns a n x 6 matrix with the following colnames:

number of successes in n trials

number of Bernoulli trials

prop

proportion = x/n

lower

lower confidence interval limit

upper

upper confidence interval limit

conf.level

confidence level

Details

The function, binom.exact, calculates exact confidence intervals for binomial counts or proportions. This function uses R's binom.test function; however, the arguments to this function can be numeric vectors of any length.

The function, binom.wilson, calculates confidence intervals for binomial counts or proportions using Wilson's formula which approximate the exact method. The arguments to this function can be numeric vectors of any length (Rothman).

The function, binom.approx, calculates confidence intervals for binomial counts or proportions using a normal approximation to the binomial distribution. The arguments to this function can be numeric vectors of any length.

References

Tomas Aragon, et al. Applied Epidemiology Using R. Available at http://www.phdata.science

Kenneth Rothman (2002), Epidemiology: An Introduction, Oxford University Press, 1st Edition.

Examples

Run this code

# NOT RUN {
binom.exact(1:10, seq(10, 100, 10))
binom.wilson(1:10, seq(10, 100, 10))
binom.approx(1:10, seq(10, 100, 10))
# }

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