plsmod-package: parsnip methods for partial least squares (PLS)
In plsmod: Model Wrappers for Projection Methods
plsmod-package R Documentation
parsnip methods for partial least squares (PLS)
Description
plsmod offers a function to fit ordinary, sparse, and discriminant
analysis PLS models.
Details
The model function works with the tidymodels infrastructure so that the model
can be resampled, tuned, tided, etc.
Examples
For regression, let’s use the Tecator data in the modeldata package:
library(tidymodels)
library(plsmod)
tidymodels_prefer()
theme_set(theme_bw())
data(meats, package = "modeldata")
Note that using tidymodels_prefer() will resulting getting
parsnip::pls() instead of mixOmics::pls() when simply running
pls().
Although plsmod can fit multivariate models, we’ll concentration on a
univariate model that predicts the percentage of protein in the samples.
meats <- meats %>% select(-water, -fat)
We define a sparse PLS model by setting the predictor_prop argument to
a value less than one. This allows the model fitting process to set
certain loadings to zero via regularization.
sparse_pls_spec <-
pls(num_comp = 10, predictor_prop = 1/3) %>%
set_engine("mixOmics") %>%
set_mode("regression")
The model is fit either with a formula or by passing the predictors and
outcomes separately:
form_fit <-
sparse_pls_spec %>%
fit(protein ~ ., data = meats)
form_fit
## parsnip model object
##
##
## Call:
## mixOmics::spls(X = x, Y = y, ncomp = ncomp, keepX = keepX)
##
## sPLS with a 'regression' mode with 10 sPLS components.
## You entered data X of dimensions: 215 100
## You entered data Y of dimensions: 215 1
##
## Selection of [34] [34] [34] [34] [34] [34] [34] [34] [34] [34] variables on each of the sPLS components on the X data set.
## Selection of [1] [1] [1] [1] [1] [1] [1] [1] [1] [1] variables on each of the sPLS components on the Y data set.
##
## Main numerical outputs:
## --------------------
## loading vectors: see object$loadings
## variates: see object$variates
## variable names: see object$names
##
## Functions to visualise samples:
## --------------------
## plotIndiv, plotArrow
##
## Functions to visualise variables:
## --------------------
## plotVar, plotLoadings, network, cim
# or
sparse_pls_spec %>%
fit_xy(x = meats %>% select(-protein), y = meats$protein)
## parsnip model object
##
##
## Call:
## mixOmics::spls(X = x, Y = y, ncomp = ncomp, keepX = keepX)
##
## sPLS with a 'regression' mode with 10 sPLS components.
## You entered data X of dimensions: 215 100
## You entered data Y of dimensions: 215 1
##
## Selection of [34] [34] [34] [34] [34] [34] [34] [34] [34] [34] variables on each of the sPLS components on the X data set.
## Selection of [1] [1] [1] [1] [1] [1] [1] [1] [1] [1] variables on each of the sPLS components on the Y data set.
##
## Main numerical outputs:
## --------------------
## loading vectors: see object$loadings
## variates: see object$variates
## variable names: see object$names
##
## Functions to visualise samples:
## --------------------
## plotIndiv, plotArrow
##
## Functions to visualise variables:
## --------------------
## plotVar, plotLoadings, network, cim
The pls() function can also be used with categorical outcomes.
Author(s)
Maintainer: Max Kuhn max@rstudio.com (ORCID)
Other contributors:
RStudio [copyright holder]
See Also
Useful links:
plsmod documentation built on Sept. 7, 2022, 1:05 a.m.
R Package Documentation
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| plsmod-package | R Documentation |
parsnip methods for partial least squares (PLS)
Description
plsmod offers a function to fit ordinary, sparse, and discriminant analysis PLS models.
Details
The model function works with the tidymodels infrastructure so that the model can be resampled, tuned, tided, etc.
Examples
For regression, let’s use the Tecator data in the modeldata package:
library(tidymodels) library(plsmod) tidymodels_prefer() theme_set(theme_bw()) data(meats, package = "modeldata")
Note that using tidymodels_prefer() will resulting getting
parsnip::pls() instead of mixOmics::pls() when simply running
pls().
Although plsmod can fit multivariate models, we’ll concentration on a univariate model that predicts the percentage of protein in the samples.
meats <- meats %>% select(-water, -fat)
We define a sparse PLS model by setting the predictor_prop argument to
a value less than one. This allows the model fitting process to set
certain loadings to zero via regularization.
sparse_pls_spec <-
pls(num_comp = 10, predictor_prop = 1/3) %>%
set_engine("mixOmics") %>%
set_mode("regression")
The model is fit either with a formula or by passing the predictors and outcomes separately:
form_fit <- sparse_pls_spec %>% fit(protein ~ ., data = meats) form_fit
## parsnip model object ## ## ## Call: ## mixOmics::spls(X = x, Y = y, ncomp = ncomp, keepX = keepX) ## ## sPLS with a 'regression' mode with 10 sPLS components. ## You entered data X of dimensions: 215 100 ## You entered data Y of dimensions: 215 1 ## ## Selection of [34] [34] [34] [34] [34] [34] [34] [34] [34] [34] variables on each of the sPLS components on the X data set. ## Selection of [1] [1] [1] [1] [1] [1] [1] [1] [1] [1] variables on each of the sPLS components on the Y data set. ## ## Main numerical outputs: ## -------------------- ## loading vectors: see object$loadings ## variates: see object$variates ## variable names: see object$names ## ## Functions to visualise samples: ## -------------------- ## plotIndiv, plotArrow ## ## Functions to visualise variables: ## -------------------- ## plotVar, plotLoadings, network, cim
# or sparse_pls_spec %>% fit_xy(x = meats %>% select(-protein), y = meats$protein)
## parsnip model object ## ## ## Call: ## mixOmics::spls(X = x, Y = y, ncomp = ncomp, keepX = keepX) ## ## sPLS with a 'regression' mode with 10 sPLS components. ## You entered data X of dimensions: 215 100 ## You entered data Y of dimensions: 215 1 ## ## Selection of [34] [34] [34] [34] [34] [34] [34] [34] [34] [34] variables on each of the sPLS components on the X data set. ## Selection of [1] [1] [1] [1] [1] [1] [1] [1] [1] [1] variables on each of the sPLS components on the Y data set. ## ## Main numerical outputs: ## -------------------- ## loading vectors: see object$loadings ## variates: see object$variates ## variable names: see object$names ## ## Functions to visualise samples: ## -------------------- ## plotIndiv, plotArrow ## ## Functions to visualise variables: ## -------------------- ## plotVar, plotLoadings, network, cim
The pls() function can also be used with categorical outcomes.
Author(s)
Maintainer: Max Kuhn max@rstudio.com (ORCID)
Other contributors:
RStudio [copyright holder]
See Also
Useful links:
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.
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