proportionBF: Function for Bayesian analysis of proportions
In BayesFactor: Computation of Bayes Factors for Common Designs
proportionBF R Documentation
Function for Bayesian analysis of proportions
Description
Bayes factors or posterior samples for binomial, geometric, or neg. binomial data.
Usage
proportionBF(
y,
N,
p,
rscale = "medium",
nullInterval = NULL,
posterior = FALSE,
callback = function(...) as.integer(0),
...
)
Arguments
y
a vector of successes
N
a vector of total number of observations
p
the null value for the probability of a success to be tested against
rscale
prior scale. A number of preset values can be given as
strings; see Details.
nullInterval
optional vector of length 2 containing
lower and upper bounds of an interval hypothesis to test, in probability units
posterior
if TRUE, return samples from the posterior instead
of Bayes factor
callback
callback function for third-party interfaces
...
further arguments to be passed to or from methods.
Details
Given count data modeled as a binomial, geometric, or negative binomial random variable,
the Bayes factor provided by proportionBF tests the null hypothesis that
the probability of a success is p_0 (argument p). Specifically,
the Bayes factor compares two hypotheses: that the probability is p_0, or
probability is not p_0. Currently, the default alternative is that
\lambda~logistic(\lambda_0,r)
where
\lambda_0=logit(p_0) and
\lambda=logit(p). r serves as a prior scale parameter.
For the rscale argument, several named values are recognized:
"medium", "wide", and "ultrawide". These correspond
to r scale values of 1/2, \sqrt{2}/2, and 1,
respectively.
The Bayes factor is computed via Gaussian quadrature, and posterior
samples are drawn via independence Metropolis-Hastings.
Value
If posterior is FALSE, an object of class
BFBayesFactor containing the computed model comparisons is
returned. If nullInterval is defined, then two Bayes factors will
be computed: The Bayes factor for the interval against the null hypothesis
that the probability is p_0, and the corresponding Bayes factor for
the compliment of the interval.
If posterior is TRUE, an object of class BFmcmc,
containing MCMC samples from the posterior is returned.
Author(s)
Richard D. Morey (richarddmorey@gmail.com)
See Also
prop.test
Examples
bf = proportionBF(y = 15, N = 25, p = .5)
bf
## Sample from the corresponding posterior distribution
samples =proportionBF(y = 15, N = 25, p = .5, posterior = TRUE, iterations = 10000)
plot(samples[,"p"])
BayesFactor documentation built on Sept. 22, 2023, 1:06 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| proportionBF | R Documentation |
Function for Bayesian analysis of proportions
Description
Bayes factors or posterior samples for binomial, geometric, or neg. binomial data.
Usage
proportionBF(
y,
N,
p,
rscale = "medium",
nullInterval = NULL,
posterior = FALSE,
callback = function(...) as.integer(0),
...
)
Arguments
y |
a vector of successes |
N |
a vector of total number of observations |
p |
the null value for the probability of a success to be tested against |
rscale |
prior scale. A number of preset values can be given as strings; see Details. |
nullInterval |
optional vector of length 2 containing lower and upper bounds of an interval hypothesis to test, in probability units |
posterior |
if |
callback |
callback function for third-party interfaces |
... |
further arguments to be passed to or from methods. |
Details
Given count data modeled as a binomial, geometric, or negative binomial random variable,
the Bayes factor provided by proportionBF tests the null hypothesis that
the probability of a success is p_0 (argument p). Specifically,
the Bayes factor compares two hypotheses: that the probability is p_0, or
probability is not p_0. Currently, the default alternative is that
\lambda~logistic(\lambda_0,r)
where
\lambda_0=logit(p_0) and
\lambda=logit(p). r serves as a prior scale parameter.
For the rscale argument, several named values are recognized:
"medium", "wide", and "ultrawide". These correspond
to r scale values of 1/2, \sqrt{2}/2, and 1,
respectively.
The Bayes factor is computed via Gaussian quadrature, and posterior samples are drawn via independence Metropolis-Hastings.
Value
If posterior is FALSE, an object of class
BFBayesFactor containing the computed model comparisons is
returned. If nullInterval is defined, then two Bayes factors will
be computed: The Bayes factor for the interval against the null hypothesis
that the probability is p_0, and the corresponding Bayes factor for
the compliment of the interval.
If posterior is TRUE, an object of class BFmcmc,
containing MCMC samples from the posterior is returned.
Author(s)
Richard D. Morey (richarddmorey@gmail.com)
See Also
prop.test
Examples
bf = proportionBF(y = 15, N = 25, p = .5)
bf
## Sample from the corresponding posterior distribution
samples =proportionBF(y = 15, N = 25, p = .5, posterior = TRUE, iterations = 10000)
plot(samples[,"p"])
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.