npdeneqtest {np} | R Documentation |
Kernel Consistent Density Equality Test with Mixed Data Types
Description
npdeneqtest
implements a consistent integrated squared
difference test for equality of densities as described in Li, Maasoumi,
and Racine (2009).
Usage
npdeneqtest(x = NULL,
y = NULL,
bw.x = NULL,
bw.y = NULL,
boot.num = 399,
random.seed = 42,
...)
Arguments
x , y |
data frames for the two samples for which one wishes to test equality of densities. The variables in each data frame must be the same (i.e. have identical names). |
bw.x , bw.y |
optional bandwidth objects for |
boot.num |
an integer value specifying the number of bootstrap
replications to use. Defaults to |
random.seed |
an integer used to seed R's random number generator. This is to ensure replicability. Defaults to 42. |
... |
additional arguments supplied to specify the bandwidth
type, kernel types, and so on. This is used if you do not pass in
bandwidth objects and you do not desire the default behaviours. To
do this, you may specify any of |
Details
npdeneqtest
computes the integrated squared density difference
between the estimated densities/probabilities of two samples having
identical variables/datatypes. See Li, Maasoumi, and Racine (2009) for
details.
Value
npdeneqtest
returns an object of type deneqtest
with the
following components
Tn |
the (standardized) statistic |
In |
the (unstandardized) statistic |
Tn.bootstrap |
contains the bootstrap replications of |
In.bootstrap |
contains the bootstrap replications of |
Tn.P |
the P-value of the |
In.P |
the P-value of the |
boot.num |
number of bootstrap replications |
summary
supports object of type deneqtest
.
Usage Issues
If you are using data of mixed types, then it is advisable to use the
data.frame
function to construct your input data and not
cbind
, since cbind
will typically not work as
intended on mixed data types and will coerce the data to the same
type.
It is crucial that both data frames have the same variable names.
Author(s)
Tristen Hayfield tristen.hayfield@gmail.com, Jeffrey S. Racine racinej@mcmaster.ca
References
Li, Q. and E. Maasoumi and J.S. Racine (2009), “A Nonparametric Test for Equality of Distributions with Mixed Categorical and Continuous Data,” Journal of Econometrics, 148, pp 186-200.
See Also
npdeptest,npsdeptest,npsymtest,npunitest
Examples
## Not run:
set.seed(1234)
## Distributions are equal
n <- 250
sample.A <- data.frame(x=rnorm(n))
sample.B <- data.frame(x=rnorm(n))
npdeneqtest(sample.A,sample.B,boot.num=99)
Sys.sleep(5)
## Distributions are unequal
sample.A <- data.frame(x=rnorm(n))
sample.B <- data.frame(x=rchisq(n,df=5))
npdeneqtest(sample.A,sample.B,boot.num=99)
## Mixed datatypes, distributions are equal
sample.A <- data.frame(a=rnorm(n),b=factor(rbinom(n,2,.5)))
sample.B <- data.frame(a=rnorm(n),b=factor(rbinom(n,2,.5)))
npdeneqtest(sample.A,sample.B,boot.num=99)
Sys.sleep(5)
## Mixed datatypes, distributions are unequal
sample.A <- data.frame(a=rnorm(n),b=factor(rbinom(n,2,.5)))
sample.B <- data.frame(a=rnorm(n,sd=10),b=factor(rbinom(n,2,.25)))
npdeneqtest(sample.A,sample.B,boot.num=99)
## End(Not run)