betamix: Finite Mixtures of Beta Regression for Rates and Proportions
In betareg: Beta Regression
Description
Usage
Arguments
Details
Value
Author(s)
References
See Also
Examples
Description
Fit finite mixtures of beta regression models for rates and
proportions via maximum likelihood with the EM algorithm using a
parametrization with mean (depending through a link function on the
covariates) and precision parameter (called phi).
Usage
1
2
3
4
5
6
7
8
9
10
betamix(formula, data, k, subset, na.action, weights, offset,
link = c("logit", "probit", "cloglog", "cauchit", "log",
"loglog"), link.phi = "log",
control = betareg.control(...), cluster = NULL,
FLXconcomitant = NULL, FLXcontrol = list(), verbose = FALSE,
nstart = if (is.null(cluster)) 3 else 1, which = "BIC",
ID, fixed, extra_components, ...)
extraComponent(type = c("uniform", "betareg"), coef, delta,
link = "logit", link.phi = "log")
Arguments
formula
symbolic description of the model (of type y ~ x
or y ~ x | z; for details see betareg).
data, subset, na.action
arguments controlling formula processing
via model.frame.
weights
optional numeric vector of integer case weights.
offset
optional numeric vector with an a priori known component to be
included in the linear predictor for the mean.
k
a vector of integers indicating the number of components of
the finite mixture; passed in turn to the k argument
of stepFlexmix.
link
character specification of the link function in
the mean model (mu). Currently, "logit", "probit",
"cloglog", "cauchit", "log", "loglog" are supported.
Alternatively, an object of class "link-glm" can be supplied.
link.phi
character specification of the link function in
the precision model (phi). Currently, "identity",
"log", "sqrt" are supported. The default is "log"
unless formula is of type y ~ x where the default is
"identity" (for backward compatibility).
Alternatively, an object of class "link-glm" can be supplied.
control
a list of control arguments specified via
betareg.control.
cluster
Either a matrix with k columns of initial
cluster membership probabilities for each observation; or a factor
or integer vector with the initial cluster
assignments of observations at the start of the EM
algorithm. Default is random assignment into k
clusters.
FLXconcomitant
concomitant variable model; object of class
FLXP. Default is the object returned by calling
FLXPconstant.
The argument FLXconcomitant can be omitted if formula
is a three-part formula of type y ~ x | z | w, where w
specificies the concomitant variables.
FLXcontrol
object of class "FLXcontrol" or a named list;
controls the EM algorithm and passed in turn to the control
argument of flexmix.
verbose
a logical; if TRUE progress information is shown
for different starts of the EM algorithm.
nstart
for each value of k run
stepFlexmix nstart times and keep only
the solution with maximum likelihood.
which
number of model to get if k is a vector of
integers longer than one. If character, interpreted as
number of components or name of an information criterion.
ID
grouping variable indicating if observations are from the same
individual, i.e. the component membership is restricted to be the
same for these observations.
fixed
symbolic description of the model for the parameters
fixed over components (of type ~ x | z).
extra_components
a list containing objects returned by
extraComponent().
...
arguments passed to betareg.control.
type
specifies if the component follows a uniform distribution
or a beta regression model.
coef
a vector with the coefficients to determine the midpoint
of the uniform distribution or names list with the coefficients for
the mean and precision of the beta regression model.
delta
numeric; half-length of the interval of the uniform
distribution.
Details
The arguments and the model specification are similar to
betareg. Internally stepFlexmix
is called with suitable arguments to fit the finite mixture model with
the EM algorithm. See Grün et al. (2012) for more details.
extra_components is a list where each element corresponds to a
component where the parameters are fixed a-priori.
Value
An object of class "flexmix" containing the best model with
respect to the log likelihood or the one selected according to
which if k is a vector of integers longer than 1.
Author(s)
Bettina Grün and Achim Zeileis
References
Cribari-Neto, F., and Zeileis, A. (2010). Beta Regression in R.
Journal of Statistical Software, 34(2), 1–24.
http://www.jstatsoft.org/v34/i02/.
Grün, B., Kosmidis, I., and Zeileis, A. (2012).
Extended Beta Regression in R: Shaken, Stirred, Mixed, and Partitioned.
Journal of Statistical Software, 48(11), 1–25.
http://www.jstatsoft.org/v48/i11/.
Grün, B., and Leisch, F. (2008). FlexMix Version 2: Finite Mixtures
with Concomitant Variables and Varying and Constant Parameters.
Journal of Statistical Software, 28(4), 1–35.
http://www.jstatsoft.org/v28/i04/.
Leisch, F. (2004). FlexMix: A General Framework for Finite Mixture
Models and Latent Class Regression in R.
Journal of Statistical Software, 11(8), 1–18.
http://www.jstatsoft.org/v11/i08/.
See Also
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
options(digits = 4)
## data with two groups of dyslexic and non-dyslexic children
data("ReadingSkills", package = "betareg")
set.seed(4040)
## try to capture accuracy ~ iq relationship (without using dyslexia
## information) using two beta regression components and one additional
## extra component for a perfect reading score
rs_mix <- betamix(accuracy ~ iq, data = ReadingSkills, k = 3,
nstart = 10, extra_components = extraComponent(type = "uniform",
coef = 0.99, delta = 0.01))
## visualize result
## intensities based on posterior probabilities
prob <- 2 * (posterior(rs_mix)[cbind(1:nrow(ReadingSkills),
clusters(rs_mix))] - 0.5)
## associated HCL colors
col0 <- hcl(c(260, 0, 130), 65, 45, fixup = FALSE)
col1 <- col0[clusters(rs_mix)]
col2 <- hcl(c(260, 0, 130)[clusters(rs_mix)], 65 * abs(prob)^1.5,
95 - 50 * abs(prob)^1.5, fixup = FALSE)
## scatter plot
plot(accuracy ~ iq, data = ReadingSkills, col = col2, pch = 19,
cex = 1.5, xlim = c(-2, 2))
points(accuracy ~ iq, data = ReadingSkills, cex = 1.5, pch = 1,
col = col1)
## fitted lines
iq <- -30:30/10
cf <- rbind(coef(rs_mix, model = "mean", component = 1:2),
c(qlogis(0.99), 0))
for(i in 1:3)
lines(iq, plogis(cf[i, 1] + cf[i, 2] * iq), lwd = 2,
col = col0[i])
## refit the model including a concomitant variable model using the
## dyslexia information with some noise to avoid complete separation
## between concomitant variable and component memberships
set.seed(4040)
w <- rnorm(nrow(ReadingSkills),
c(-1, 1)[as.integer(ReadingSkills$dyslexia)])
## The argument FLXconcomitant can be omitted when specifying
## the model via a three part formula given by
## accuracy ~ iq | 1 | w
## The posteriors from the previously fitted model are used
## for initialization.
library("flexmix")
rs_mix2 <- betamix(accuracy ~ iq, data = ReadingSkills,
extra_components = extraComponent(type = "uniform",
coef = 0.99, delta = 0.01), cluster = posterior(rs_mix),
FLXconcomitant = FLXPmultinom(~w))
coef(rs_mix2, which = "concomitant")
summary(rs_mix2, which = "concomitant")
betareg documentation built on May 2, 2019, 5:20 p.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.
Description Usage Arguments Details Value Author(s) References See Also Examples
Description
Fit finite mixtures of beta regression models for rates and proportions via maximum likelihood with the EM algorithm using a parametrization with mean (depending through a link function on the covariates) and precision parameter (called phi).
Usage
1 2 3 4 5 6 7 8 9 10 | betamix(formula, data, k, subset, na.action, weights, offset,
link = c("logit", "probit", "cloglog", "cauchit", "log",
"loglog"), link.phi = "log",
control = betareg.control(...), cluster = NULL,
FLXconcomitant = NULL, FLXcontrol = list(), verbose = FALSE,
nstart = if (is.null(cluster)) 3 else 1, which = "BIC",
ID, fixed, extra_components, ...)
extraComponent(type = c("uniform", "betareg"), coef, delta,
link = "logit", link.phi = "log")
|
Arguments
formula |
symbolic description of the model (of type |
data, subset, na.action |
arguments controlling formula processing
via |
weights |
optional numeric vector of integer case weights. |
offset |
optional numeric vector with an a priori known component to be included in the linear predictor for the mean. |
k |
a vector of integers indicating the number of components of
the finite mixture; passed in turn to the |
link |
character specification of the link function in
the mean model (mu). Currently, |
link.phi |
character specification of the link function in
the precision model (phi). Currently, |
control |
a list of control arguments specified via
|
cluster |
Either a matrix with |
FLXconcomitant |
concomitant variable model; object of class
|
FLXcontrol |
object of class |
verbose |
a logical; if |
nstart |
for each value of |
which |
number of model to get if |
ID |
grouping variable indicating if observations are from the same individual, i.e. the component membership is restricted to be the same for these observations. |
fixed |
symbolic description of the model for the parameters
fixed over components (of type |
extra_components |
a list containing objects returned by
|
... |
arguments passed to |
type |
specifies if the component follows a uniform distribution or a beta regression model. |
coef |
a vector with the coefficients to determine the midpoint of the uniform distribution or names list with the coefficients for the mean and precision of the beta regression model. |
delta |
numeric; half-length of the interval of the uniform distribution. |
Details
The arguments and the model specification are similar to
betareg. Internally stepFlexmix
is called with suitable arguments to fit the finite mixture model with
the EM algorithm. See Grün et al. (2012) for more details.
extra_components is a list where each element corresponds to a
component where the parameters are fixed a-priori.
Value
An object of class "flexmix" containing the best model with
respect to the log likelihood or the one selected according to
which if k is a vector of integers longer than 1.
Author(s)
Bettina Grün and Achim Zeileis
References
Cribari-Neto, F., and Zeileis, A. (2010). Beta Regression in R. Journal of Statistical Software, 34(2), 1–24. http://www.jstatsoft.org/v34/i02/.
Grün, B., Kosmidis, I., and Zeileis, A. (2012). Extended Beta Regression in R: Shaken, Stirred, Mixed, and Partitioned. Journal of Statistical Software, 48(11), 1–25. http://www.jstatsoft.org/v48/i11/.
Grün, B., and Leisch, F. (2008). FlexMix Version 2: Finite Mixtures with Concomitant Variables and Varying and Constant Parameters. Journal of Statistical Software, 28(4), 1–35. http://www.jstatsoft.org/v28/i04/.
Leisch, F. (2004). FlexMix: A General Framework for Finite Mixture Models and Latent Class Regression in R. Journal of Statistical Software, 11(8), 1–18. http://www.jstatsoft.org/v11/i08/.
See Also
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 | options(digits = 4)
## data with two groups of dyslexic and non-dyslexic children
data("ReadingSkills", package = "betareg")
set.seed(4040)
## try to capture accuracy ~ iq relationship (without using dyslexia
## information) using two beta regression components and one additional
## extra component for a perfect reading score
rs_mix <- betamix(accuracy ~ iq, data = ReadingSkills, k = 3,
nstart = 10, extra_components = extraComponent(type = "uniform",
coef = 0.99, delta = 0.01))
## visualize result
## intensities based on posterior probabilities
prob <- 2 * (posterior(rs_mix)[cbind(1:nrow(ReadingSkills),
clusters(rs_mix))] - 0.5)
## associated HCL colors
col0 <- hcl(c(260, 0, 130), 65, 45, fixup = FALSE)
col1 <- col0[clusters(rs_mix)]
col2 <- hcl(c(260, 0, 130)[clusters(rs_mix)], 65 * abs(prob)^1.5,
95 - 50 * abs(prob)^1.5, fixup = FALSE)
## scatter plot
plot(accuracy ~ iq, data = ReadingSkills, col = col2, pch = 19,
cex = 1.5, xlim = c(-2, 2))
points(accuracy ~ iq, data = ReadingSkills, cex = 1.5, pch = 1,
col = col1)
## fitted lines
iq <- -30:30/10
cf <- rbind(coef(rs_mix, model = "mean", component = 1:2),
c(qlogis(0.99), 0))
for(i in 1:3)
lines(iq, plogis(cf[i, 1] + cf[i, 2] * iq), lwd = 2,
col = col0[i])
## refit the model including a concomitant variable model using the
## dyslexia information with some noise to avoid complete separation
## between concomitant variable and component memberships
set.seed(4040)
w <- rnorm(nrow(ReadingSkills),
c(-1, 1)[as.integer(ReadingSkills$dyslexia)])
## The argument FLXconcomitant can be omitted when specifying
## the model via a three part formula given by
## accuracy ~ iq | 1 | w
## The posteriors from the previously fitted model are used
## for initialization.
library("flexmix")
rs_mix2 <- betamix(accuracy ~ iq, data = ReadingSkills,
extra_components = extraComponent(type = "uniform",
coef = 0.99, delta = 0.01), cluster = posterior(rs_mix),
FLXconcomitant = FLXPmultinom(~w))
coef(rs_mix2, which = "concomitant")
summary(rs_mix2, which = "concomitant")
|
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.