Type: Package
Title: Comprehensive Analysis of Multi-Omics Data Using an Offset-Based Method
Version: 0.2.0
Description: Priority-ElasticNet extends the Priority-LASSO method (Klau et al. (2018) <doi:10.1186/s12859-018-2344-6>) by incorporating the ElasticNet penalty, allowing for both L1 and L2 regularization. This approach fits successive ElasticNet models for several blocks of (omics) data with different priorities, using the predicted values from each block as an offset for the subsequent block. It also offers robust options to handle block-wise missingness in multi-omics data, improving the flexibility and applicability of the model in the presence of incomplete datasets.
License: GPL-3
Depends: R (≥ 3.5.0)
Imports: survival, glmnet, utils, checkmate, shiny, tidyr, dplyr, caret, pROC, PRROC, plotrix, ggplot2, magrittr, tibble, broom, cvms, glmSparseNet
Suggests: ipflasso, rlang, knitr, rmarkdown
VignetteBuilder: knitr
Encoding: UTF-8
LazyData: true
RoxygenNote: 7.3.2
NeedsCompilation: no
Packaged: 2025-01-18 13:41:04 UTC; selcukkorkmaz
Author: Laila Qadir Musib [aut, cre], Eunice Carrasquinha [aut], Helena Mouriño [aut]
Maintainer: Laila Qadir Musib <statleila98@gmail.com>
Repository: CRAN
Date/Publication: 2025-01-19 22:40:05 UTC

Simulated Patient Data for Binary Classification

Description

This dataset contains simulated data for a binary classification problem, representing patient data with clinical, proteomics, and RNA variables. The data is organized into three blocks of variables: clinical variables, proteomics variables, and RNA variables. The outcome is a binary variable generated based on a logistic function.

Usage

Pen_Data

Format

A data frame with 406 rows and 325 columns:

Clinical_Var1

Numeric variable representing age.

Clinical_Var2

Binary variable representing gender (0 = male, 1 = female).

Clinical_Var3

Categorical variable representing race (values 0, 1, 2, or 3).

Clinical_Var4

Binary variable representing ethnicity (0 or 1).

Clinical_Var5

Binary variable representing radiation therapy status (0 or 1).

Proteomic_Var1

Continuous variable representing a proteomic measurement.

Proteomic_Var2

Continuous variable representing a proteomic measurement.

Proteomic_Var3

Continuous variable representing a proteomic measurement.

Proteomic_Var4

Continuous variable representing a proteomic measurement.

Proteomic_Var5

Continuous variable representing a proteomic measurement.

Proteomic_Var6

Continuous variable representing a proteomic measurement.

Proteomic_Var7

Continuous variable representing a proteomic measurement.

Proteomic_Var8

Continuous variable representing a proteomic measurement.

Proteomic_Var9

Continuous variable representing a proteomic measurement.

Proteomic_Var10

Continuous variable representing a proteomic measurement.

Proteomic_Var11

Continuous variable representing a proteomic measurement.

Proteomic_Var12

Continuous variable representing a proteomic measurement.

Proteomic_Var13

Continuous variable representing a proteomic measurement.

Proteomic_Var14

Continuous variable representing a proteomic measurement.

Proteomic_Var15

Continuous variable representing a proteomic measurement.

Proteomic_Var16

Continuous variable representing a proteomic measurement.

Proteomic_Var17

Continuous variable representing a proteomic measurement.

Proteomic_Var18

Continuous variable representing a proteomic measurement.

Proteomic_Var19

Continuous variable representing a proteomic measurement.

Proteomic_Var20

Continuous variable representing a proteomic measurement.

Proteomic_Var21

Continuous variable representing a proteomic measurement.

Proteomic_Var22

Continuous variable representing a proteomic measurement.

Proteomic_Var23

Continuous variable representing a proteomic measurement.

Proteomic_Var24

Continuous variable representing a proteomic measurement.

Proteomic_Var25

Continuous variable representing a proteomic measurement.

Proteomic_Var26

Continuous variable representing a proteomic measurement.

Proteomic_Var27

Continuous variable representing a proteomic measurement.

Proteomic_Var28

Continuous variable representing a proteomic measurement.

Proteomic_Var29

Continuous variable representing a proteomic measurement.

Proteomic_Var30

Continuous variable representing a proteomic measurement.

Proteomic_Var31

Continuous variable representing a proteomic measurement.

Proteomic_Var32

Continuous variable representing a proteomic measurement.

Proteomic_Var33

Continuous variable representing a proteomic measurement.

Proteomic_Var34

Continuous variable representing a proteomic measurement.

Proteomic_Var35

Continuous variable representing a proteomic measurement.

Proteomic_Var36

Continuous variable representing a proteomic measurement.

Proteomic_Var37

Continuous variable representing a proteomic measurement.

Proteomic_Var38

Continuous variable representing a proteomic measurement.

Proteomic_Var39

Continuous variable representing a proteomic measurement.

Proteomic_Var40

Continuous variable representing a proteomic measurement.

Proteomic_Var41

Continuous variable representing a proteomic measurement.

Proteomic_Var42

Continuous variable representing a proteomic measurement.

Proteomic_Var43

Continuous variable representing a proteomic measurement.

Proteomic_Var44

Continuous variable representing a proteomic measurement.

Proteomic_Var45

Continuous variable representing a proteomic measurement.

Proteomic_Var46

Continuous variable representing a proteomic measurement.

Proteomic_Var47

Continuous variable representing a proteomic measurement.

Proteomic_Var48

Continuous variable representing a proteomic measurement.

Proteomic_Var49

Continuous variable representing a proteomic measurement.

Proteomic_Var50

Continuous variable representing a proteomic measurement.

Proteomic_Var51

Continuous variable representing a proteomic measurement.

Proteomic_Var52

Continuous variable representing a proteomic measurement.

Proteomic_Var53

Continuous variable representing a proteomic measurement.

Proteomic_Var54

Continuous variable representing a proteomic measurement.

Proteomic_Var55

Continuous variable representing a proteomic measurement.

Proteomic_Var56

Continuous variable representing a proteomic measurement.

Proteomic_Var57

Continuous variable representing a proteomic measurement.

Proteomic_Var58

Continuous variable representing a proteomic measurement.

Proteomic_Var59

Continuous variable representing a proteomic measurement.

Proteomic_Var60

Continuous variable representing a proteomic measurement.

Proteomic_Var61

Continuous variable representing a proteomic measurement.

Proteomic_Var62

Continuous variable representing a proteomic measurement.

Proteomic_Var63

Continuous variable representing a proteomic measurement.

Proteomic_Var64

Continuous variable representing a proteomic measurement.

Proteomic_Var65

Continuous variable representing a proteomic measurement.

Proteomic_Var66

Continuous variable representing a proteomic measurement.

Proteomic_Var67

Continuous variable representing a proteomic measurement.

Proteomic_Var68

Continuous variable representing a proteomic measurement.

Proteomic_Var69

Continuous variable representing a proteomic measurement.

Proteomic_Var70

Continuous variable representing a proteomic measurement.

Proteomic_Var71

Continuous variable representing a proteomic measurement.

Proteomic_Var72

Continuous variable representing a proteomic measurement.

Proteomic_Var73

Continuous variable representing a proteomic measurement.

Proteomic_Var74

Continuous variable representing a proteomic measurement.

Proteomic_Var75

Continuous variable representing a proteomic measurement.

Proteomic_Var76

Continuous variable representing a proteomic measurement.

Proteomic_Var77

Continuous variable representing a proteomic measurement.

Proteomic_Var78

Continuous variable representing a proteomic measurement.

Proteomic_Var79

Continuous variable representing a proteomic measurement.

Proteomic_Var80

Continuous variable representing a proteomic measurement.

Proteomic_Var81

Continuous variable representing a proteomic measurement.

Proteomic_Var82

Continuous variable representing a proteomic measurement.

Proteomic_Var83

Continuous variable representing a proteomic measurement.

Proteomic_Var84

Continuous variable representing a proteomic measurement.

Proteomic_Var85

Continuous variable representing a proteomic measurement.

Proteomic_Var86

Continuous variable representing a proteomic measurement.

Proteomic_Var87

Continuous variable representing a proteomic measurement.

Proteomic_Var88

Continuous variable representing a proteomic measurement.

Proteomic_Var89

Continuous variable representing a proteomic measurement.

Proteomic_Var90

Continuous variable representing a proteomic measurement.

Proteomic_Var91

Continuous variable representing a proteomic measurement.

Proteomic_Var92

Continuous variable representing a proteomic measurement.

Proteomic_Var93

Continuous variable representing a proteomic measurement.

Proteomic_Var94

Continuous variable representing a proteomic measurement.

Proteomic_Var95

Continuous variable representing a proteomic measurement.

Proteomic_Var96

Continuous variable representing a proteomic measurement.

Proteomic_Var97

Continuous variable representing a proteomic measurement.

Proteomic_Var98

Continuous variable representing a proteomic measurement.

Proteomic_Var99

Continuous variable representing a proteomic measurement.

Proteomic_Var100

Continuous variable representing a proteomic measurement.

Proteomic_Var101

Continuous variable representing a proteomic measurement.

Proteomic_Var102

Continuous variable representing a proteomic measurement.

Proteomic_Var103

Continuous variable representing a proteomic measurement.

Proteomic_Var104

Continuous variable representing a proteomic measurement.

Proteomic_Var105

Continuous variable representing a proteomic measurement.

Proteomic_Var106

Continuous variable representing a proteomic measurement.

Proteomic_Var107

Continuous variable representing a proteomic measurement.

Proteomic_Var108

Continuous variable representing a proteomic measurement.

Proteomic_Var109

Continuous variable representing a proteomic measurement.

Proteomic_Var110

Continuous variable representing a proteomic measurement.

Proteomic_Var111

Continuous variable representing a proteomic measurement.

Proteomic_Var112

Continuous variable representing a proteomic measurement.

Proteomic_Var113

Continuous variable representing a proteomic measurement.

Proteomic_Var114

Continuous variable representing a proteomic measurement.

Proteomic_Var115

Continuous variable representing a proteomic measurement.

Proteomic_Var116

Continuous variable representing a proteomic measurement.

Proteomic_Var117

Continuous variable representing a proteomic measurement.

Proteomic_Var118

Continuous variable representing a proteomic measurement.

Proteomic_Var119

Continuous variable representing a proteomic measurement.

Proteomic_Var120

Continuous variable representing a proteomic measurement.

Proteomic_Var121

Continuous variable representing a proteomic measurement.

Proteomic_Var122

Continuous variable representing a proteomic measurement.

Proteomic_Var123

Continuous variable representing a proteomic measurement.

Proteomic_Var124

Continuous variable representing a proteomic measurement.

Proteomic_Var125

Continuous variable representing a proteomic measurement.

Proteomic_Var126

Continuous variable representing a proteomic measurement.

Proteomic_Var127

Continuous variable representing a proteomic measurement.

Proteomic_Var128

Continuous variable representing a proteomic measurement.

Proteomic_Var129

Continuous variable representing a proteomic measurement.

Proteomic_Var130

Continuous variable representing a proteomic measurement.

Proteomic_Var131

Continuous variable representing a proteomic measurement.

Proteomic_Var132

Continuous variable representing a proteomic measurement.

Proteomic_Var133

Continuous variable representing a proteomic measurement.

Proteomic_Var134

Continuous variable representing a proteomic measurement.

Proteomic_Var135

Continuous variable representing a proteomic measurement.

Proteomic_Var136

Continuous variable representing a proteomic measurement.

Proteomic_Var137

Continuous variable representing a proteomic measurement.

Proteomic_Var138

Continuous variable representing a proteomic measurement.

Proteomic_Var139

Continuous variable representing a proteomic measurement.

Proteomic_Var140

Continuous variable representing a proteomic measurement.

Proteomic_Var141

Continuous variable representing a proteomic measurement.

Proteomic_Var142

Continuous variable representing a proteomic measurement.

Proteomic_Var143

Continuous variable representing a proteomic measurement.

Proteomic_Var144

Continuous variable representing a proteomic measurement.

Proteomic_Var145

Continuous variable representing a proteomic measurement.

Proteomic_Var146

Continuous variable representing a proteomic measurement.

Proteomic_Var147

Continuous variable representing a proteomic measurement.

Proteomic_Var148

Continuous variable representing a proteomic measurement.

Proteomic_Var149

Continuous variable representing a proteomic measurement.

Proteomic_Var150

Continuous variable representing a proteomic measurement.

Proteomic_Var151

Continuous variable representing a proteomic measurement.

Proteomic_Var152

Continuous variable representing a proteomic measurement.

Proteomic_Var153

Continuous variable representing a proteomic measurement.

Proteomic_Var154

Continuous variable representing a proteomic measurement.

Proteomic_Var155

Continuous variable representing a proteomic measurement.

Proteomic_Var156

Continuous variable representing a proteomic measurement.

Proteomic_Var157

Continuous variable representing a proteomic measurement.

Proteomic_Var158

Continuous variable representing a proteomic measurement.

Proteomic_Var159

Continuous variable representing a proteomic measurement.

Proteomic_Var160

Continuous variable representing a proteomic measurement.

Proteomic_Var161

Continuous variable representing a proteomic measurement.

Proteomic_Var162

Continuous variable representing a proteomic measurement.

Proteomic_Var163

Continuous variable representing a proteomic measurement.

Proteomic_Var164

Continuous variable representing a proteomic measurement.

Proteomic_Var165

Continuous variable representing a proteomic measurement.

Proteomic_Var166

Continuous variable representing a proteomic measurement.

Proteomic_Var167

Continuous variable representing a proteomic measurement.

Proteomic_Var168

Continuous variable representing a proteomic measurement.

Proteomic_Var169

Continuous variable representing a proteomic measurement.

Proteomic_Var170

Continuous variable representing a proteomic measurement.

Proteomic_Var171

Continuous variable representing a proteomic measurement.

Proteomic_Var172

Continuous variable representing a proteomic measurement.

Proteomic_Var173

Continuous variable representing a proteomic measurement.

Proteomic_Var174

Continuous variable representing a proteomic measurement.

RNA_Var1

Continuous variable representing an RNA measurement.

RNA_Var2

Continuous variable representing an RNA measurement.

RNA_Var3

Continuous variable representing an RNA measurement.

RNA_Var4

Continuous variable representing an RNA measurement.

RNA_Var5

Continuous variable representing an RNA measurement.

RNA_Var6

Continuous variable representing an RNA measurement.

RNA_Var7

Continuous variable representing an RNA measurement.

RNA_Var8

Continuous variable representing an RNA measurement.

RNA_Var9

Continuous variable representing an RNA measurement.

RNA_Var10

Continuous variable representing an RNA measurement.

RNA_Var11

Continuous variable representing an RNA measurement.

RNA_Var12

Continuous variable representing an RNA measurement.

RNA_Var13

Continuous variable representing an RNA measurement.

RNA_Var14

Continuous variable representing an RNA measurement.

RNA_Var15

Continuous variable representing an RNA measurement.

RNA_Var16

Continuous variable representing an RNA measurement.

RNA_Var17

Continuous variable representing an RNA measurement.

RNA_Var18

Continuous variable representing an RNA measurement.

RNA_Var19

Continuous variable representing an RNA measurement.

RNA_Var20

Continuous variable representing an RNA measurement.

RNA_Var21

Continuous variable representing an RNA measurement.

RNA_Var22

Continuous variable representing an RNA measurement.

RNA_Var23

Continuous variable representing an RNA measurement.

RNA_Var24

Continuous variable representing an RNA measurement.

RNA_Var25

Continuous variable representing an RNA measurement.

RNA_Var26

Continuous variable representing an RNA measurement.

RNA_Var27

Continuous variable representing an RNA measurement.

RNA_Var28

Continuous variable representing an RNA measurement.

RNA_Var29

Continuous variable representing an RNA measurement.

RNA_Var30

Continuous variable representing an RNA measurement.

RNA_Var31

Continuous variable representing an RNA measurement.

RNA_Var32

Continuous variable representing an RNA measurement.

RNA_Var33

Continuous variable representing an RNA measurement.

RNA_Var34

Continuous variable representing an RNA measurement.

RNA_Var35

Continuous variable representing an RNA measurement.

RNA_Var36

Continuous variable representing an RNA measurement.

RNA_Var37

Continuous variable representing an RNA measurement.

RNA_Var38

Continuous variable representing an RNA measurement.

RNA_Var39

Continuous variable representing an RNA measurement.

RNA_Var40

Continuous variable representing an RNA measurement.

RNA_Var41

Continuous variable representing an RNA measurement.

RNA_Var42

Continuous variable representing an RNA measurement.

RNA_Var43

Continuous variable representing an RNA measurement.

RNA_Var44

Continuous variable representing an RNA measurement.

RNA_Var45

Continuous variable representing an RNA measurement.

RNA_Var46

Continuous variable representing an RNA measurement.

RNA_Var47

Continuous variable representing an RNA measurement.

RNA_Var48

Continuous variable representing an RNA measurement.

RNA_Var49

Continuous variable representing an RNA measurement.

RNA_Var50

Continuous variable representing an RNA measurement.

RNA_Var51

Continuous variable representing an RNA measurement.

RNA_Var52

Continuous variable representing an RNA measurement.

RNA_Var53

Continuous variable representing an RNA measurement.

RNA_Var54

Continuous variable representing an RNA measurement.

RNA_Var55

Continuous variable representing an RNA measurement.

RNA_Var56

Continuous variable representing an RNA measurement.

RNA_Var57

Continuous variable representing an RNA measurement.

RNA_Var58

Continuous variable representing an RNA measurement.

RNA_Var59

Continuous variable representing an RNA measurement.

RNA_Var60

Continuous variable representing an RNA measurement.

RNA_Var61

Continuous variable representing an RNA measurement.

RNA_Var62

Continuous variable representing an RNA measurement.

RNA_Var63

Continuous variable representing an RNA measurement.

RNA_Var64

Continuous variable representing an RNA measurement.

RNA_Var65

Continuous variable representing an RNA measurement.

RNA_Var66

Continuous variable representing an RNA measurement.

RNA_Var67

Continuous variable representing an RNA measurement.

RNA_Var68

Continuous variable representing an RNA measurement.

RNA_Var69

Continuous variable representing an RNA measurement.

RNA_Var70

Continuous variable representing an RNA measurement.

RNA_Var71

Continuous variable representing an RNA measurement.

RNA_Var72

Continuous variable representing an RNA measurement.

RNA_Var73

Continuous variable representing an RNA measurement.

RNA_Var74

Continuous variable representing an RNA measurement.

RNA_Var75

Continuous variable representing an RNA measurement.

RNA_Var76

Continuous variable representing an RNA measurement.

RNA_Var77

Continuous variable representing an RNA measurement.

RNA_Var78

Continuous variable representing an RNA measurement.

RNA_Var79

Continuous variable representing an RNA measurement.

RNA_Var80

Continuous variable representing an RNA measurement.

RNA_Var81

Continuous variable representing an RNA measurement.

RNA_Var82

Continuous variable representing an RNA measurement.

RNA_Var83

Continuous variable representing an RNA measurement.

RNA_Var84

Continuous variable representing an RNA measurement.

RNA_Var85

Continuous variable representing an RNA measurement.

RNA_Var86

Continuous variable representing an RNA measurement.

RNA_Var87

Continuous variable representing an RNA measurement.

RNA_Var88

Continuous variable representing an RNA measurement.

RNA_Var89

Continuous variable representing an RNA measurement.

RNA_Var90

Continuous variable representing an RNA measurement.

RNA_Var91

Continuous variable representing an RNA measurement.

RNA_Var92

Continuous variable representing an RNA measurement.

RNA_Var93

Continuous variable representing an RNA measurement.

RNA_Var94

Continuous variable representing an RNA measurement.

RNA_Var95

Continuous variable representing an RNA measurement.

RNA_Var96

Continuous variable representing an RNA measurement.

RNA_Var97

Continuous variable representing an RNA measurement.

RNA_Var98

Continuous variable representing an RNA measurement.

RNA_Var99

Continuous variable representing an RNA measurement.

RNA_Var100

Continuous variable representing an RNA measurement.

RNA_Var101

Continuous variable representing an RNA measurement.

RNA_Var102

Continuous variable representing an RNA measurement.

RNA_Var103

Continuous variable representing an RNA measurement.

RNA_Var104

Continuous variable representing an RNA measurement.

RNA_Var105

Continuous variable representing an RNA measurement.

RNA_Var106

Continuous variable representing an RNA measurement.

RNA_Var107

Continuous variable representing an RNA measurement.

RNA_Var108

Continuous variable representing an RNA measurement.

RNA_Var109

Continuous variable representing an RNA measurement.

RNA_Var110

Continuous variable representing an RNA measurement.

RNA_Var111

Continuous variable representing an RNA measurement.

RNA_Var112

Continuous variable representing an RNA measurement.

RNA_Var113

Continuous variable representing an RNA measurement.

RNA_Var114

Continuous variable representing an RNA measurement.

RNA_Var115

Continuous variable representing an RNA measurement.

RNA_Var116

Continuous variable representing an RNA measurement.

RNA_Var117

Continuous variable representing an RNA measurement.

RNA_Var118

Continuous variable representing an RNA measurement.

RNA_Var119

Continuous variable representing an RNA measurement.

RNA_Var120

Continuous variable representing an RNA measurement.

RNA_Var121

Continuous variable representing an RNA measurement.

RNA_Var122

Continuous variable representing an RNA measurement.

RNA_Var123

Continuous variable representing an RNA measurement.

RNA_Var124

Continuous variable representing an RNA measurement.

RNA_Var125

Continuous variable representing an RNA measurement.

RNA_Var126

Continuous variable representing an RNA measurement.

RNA_Var127

Continuous variable representing an RNA measurement.

RNA_Var128

Continuous variable representing an RNA measurement.

RNA_Var129

Continuous variable representing an RNA measurement.

RNA_Var130

Continuous variable representing an RNA measurement.

RNA_Var131

Continuous variable representing an RNA measurement.

RNA_Var132

Continuous variable representing an RNA measurement.

RNA_Var133

Continuous variable representing an RNA measurement.

RNA_Var134

Continuous variable representing an RNA measurement.

RNA_Var135

Continuous variable representing an RNA measurement.

RNA_Var136

Continuous variable representing an RNA measurement.

RNA_Var137

Continuous variable representing an RNA measurement.

RNA_Var138

Continuous variable representing an RNA measurement.

RNA_Var139

Continuous variable representing an RNA measurement.

RNA_Var140

Continuous variable representing an RNA measurement.

RNA_Var141

Continuous variable representing an RNA measurement.

RNA_Var142

Continuous variable representing an RNA measurement.

RNA_Var143

Continuous variable representing an RNA measurement.

RNA_Var144

Continuous variable representing an RNA measurement.

RNA_Var145

Continuous variable representing an RNA measurement.

Pen_out

Binary outcome variable generated using a logistic function applied to a linear predictor based on the combined variables.

Calculates the offsets for the current block

Description

Calculates the offsets for the current block

Usage

calculate_offsets(
  current_missings,
  current_observations,
  mcontrol,
  current_block,
  pred,
  liste,
  X,
  blocks,
  current_intercept
)

Arguments

current_missings

index vector (indices) of current missing observations

current_observations

index vector (indices) of current used observations

mcontrol

control for missing data handling

current_block

index of current block

pred

predictions of current block

liste

list with offsets

X

original data

blocks

information which variable belongs to which block

current_intercept

the intercept estimated for the current block

Value

List with offsets, used imputation model and the blocks used for the imputation model (if applicable)

Extract coefficients from a priorityelasticnet object

Description

Extract coefficients from a priorityelasticnet object

Usage

## S3 method for class 'priorityelasticnet'
coef(object, ...)

Arguments

object

model of type priorityelasticnet

...

additional arguments, currently not used

Value

List with the coefficients and the intercepts

Compare the rows of a matrix with a pattern

Description

Compare the rows of a matrix with a pattern

Usage

compare_boolean(object, pattern)

Arguments

object

matrix

pattern

pattern which is compared against the rows of the matrix

Value

logical vector if the pattern matches the rows

priorityelasticnet with several block specifications

Description

Runs priorityelasticnet for a list of block specifications and gives the best results in terms of cv error.

Usage

cvm_priorityelasticnet(
  X,
  Y,
  weights,
  family,
  type.measure,
  blocks.list,
  max.coef.list = NULL,
  block1.penalization = TRUE,
  lambda.type = "lambda.min",
  standardize = TRUE,
  nfolds = 10,
  foldid,
  cvoffset = FALSE,
  cvoffsetnfolds = 10,
  alpha = 1,
  ...
)

Arguments

X

A numeric matrix of predictors.

Y

A response vector. For family = "multinomial", Y should be a factor with more than two levels.

weights

Optional observation weights. Default is NULL.

family

A character string specifying the model type. Options are "gaussian", "binomial", "cox", and "multinomial". Default is "gaussian".

type.measure

Loss function for cross-validation. Options are "mse", "deviance", "class", "auc". Default depends on the family.

blocks.list

list of the format list(list(bp1=...,bp2=...,), list(bp1=,...,bp2=...,), ...). For the specification of the entries, see priorityelasticnet.

max.coef.list

list of max.coef vectors. The first entries are omitted if block1.penalization = FALSE. Default is NULL.

block1.penalization

Logical. If FALSE, the first block will not be penalized. Default is TRUE.

lambda.type

Type of lambda to select. Options are "lambda.min" or "lambda.1se". Default is "lambda.min".

standardize

Logical flag for variable standardization, prior to fitting the model. Default is TRUE.

nfolds

Number of folds for cross-validation. Default is 10.

foldid

Optional vector of values between 1 and nfolds identifying what fold each observation is in. Default is NULL.

cvoffset

Logical. If TRUE, a cross-validated offset is used. Default is FALSE.

cvoffsetnfolds

Number of folds for cross-validation of the offset. Default is 10.

alpha

Elastic net mixing parameter. The elastic net penalty is defined as

(1 - \alpha)/2||\beta||_2^2 + \alpha||\beta||_1

Defaults to 1 (lasso penalty).

...

other arguments that can be passed to the function priorityelasticnet.

Value

object of class cvm_priorityelasticnet with the following elements. If these elements are lists, they contain the results for each penalized block of the best result.

lambda.ind

list with indices of lambda for lambda.type.

lambda.type

type of lambda which is used for the predictions.

lambda.min

list with values of lambda for lambda.type.

min.cvm

list with the mean cross-validated errors for lambda.type.

nzero

list with numbers of non-zero coefficients for lambda.type.

glmnet.fit

list of fitted glmnet objects.

name

a text string indicating type of measure.

block1unpen

if block1.penalization = FALSE, the results of either the fitted glm or coxph object.

best.blocks

character vector with the indices of the best block specification.

best.blocks.indices

list with the indices of the best block specification ordered by best to worst.

best.max.coef

vector with the number of maximal coefficients corresponding to best.blocks.

best.model

complete priorityelasticnet model of the best solution.

coefficients

coefficients according to the results obtained with best.blocks.

call

the function call.

Note

The function description and the first example are based on the R package ipflasso.

Construct control structures for handling of missing data for priorityelasticnet

Description

Construct control structures for handling of missing data for priorityelasticnet

Usage

missing.control(
  handle.missingdata = c("none", "ignore", "impute.offset"),
  offset.firstblock = c("zero", "intercept"),
  impute.offset.cases = c("complete.cases", "available.cases"),
  nfolds.imputation = 10,
  lambda.imputation = c("lambda.min", "lambda.1se"),
  perc.comp.cases.warning = 0.3,
  threshold.available.cases = 30,
  select.available.cases = c("maximise.blocks", "max")
)

Arguments

handle.missingdata

how blockwise missing data should be treated. Default is none which does nothing, ignore ignores the observations with missing data for the current block, impute.offset imputes the offset for the missing values.

offset.firstblock

determines if the offset of the first block for missing observations is zero or the intercept of the observed values for handle.missingdata = ignore

impute.offset.cases

which cases/observations should be used for the imputation model to impute missing offsets. Supported are complete cases (additional constraint is that every observation can only contain one missing block) and all available observations which have an overlap with the current block.

nfolds.imputation

nfolds for the glmnet of the imputation model

lambda.imputation

which lambda-value should be used for predicting the imputed offsets in cv.glmnet

perc.comp.cases.warning

percentage of complete cases when a warning is issued of too few cases for the imputation model

threshold.available.cases

if the number of available cases for impute.offset.cases = available.cases is below this threshold, priorityelasticnet tries to reduce the number of blocks taken into account for the imputation model to increase the number of observations used for the imputation model.

select.available.cases

determines how the blocks which are used for the imputation model are selected when impute.offset.cases = available.cases. max selects the blocks that maximise the number of observations, maximise.blocks tries to include as many blocks as possible, starting with the blocks with the hightes priority

Value

list with control parameters

Predictions from priorityelasticnet

Description

Makes predictions for a priorityelasticnet object. It can be chosen between linear predictors or fitted values.

Usage

## S3 method for class 'priorityelasticnet'
predict(
  object,
  newdata = NULL,
  type = c("link", "response"),
  handle.missingtestdata = c("none", "omit.prediction", "set.zero", "impute.block"),
  include.allintercepts = FALSE,
  use.blocks = "all",
  alpha = 1,
  ...
)

Arguments

object

An object of class priorityelasticnet.

newdata

(nnew x p) matrix or data frame with new values.

type

Specifies the type of predictions. link gives the linear predictors for all types of response and response gives the fitted values.

handle.missingtestdata

Specifies how to deal with missing data in the test data; possibilities are none, omit.prediction, set.zero and impute.block

include.allintercepts

should the intercepts from all blocks included in the prediction? If FALSE, only the intercept from the first block is included (default in the past).

use.blocks

determines which blocks are used for the prediction, the default is all. Otherwise one can specify the number of blocks which are used in a vector

alpha

Elastic net mixing parameter used in the model fitting.

...

Further arguments passed to or from other methods.

Details

handle.missingtestdata specifies how to deal with missing data. The default none cannot handle missing data, omit.prediction does not make a prediction for observations with missing values and return NA. set.zero ignores the missing data for the calculation of the prediction (the missing value is set to zero). impute.block uses an imputation model to impute the offset of a missing block. This only works if the priorityelasticnet object was fitted with handle.missingdata = "impute.offset". If impute.offset.cases = "complete.cases" was used, then every observation can have only one missing block. For observations with more than one missing block, NA is returned. If impute.offset.cases = "available.cases" was used, the missingness pattern in the test data has to be the same as in the train data. For observations with an unknown missingness pattern, NA is returned.

Value

Predictions that depend on type.

Examples


pl_bin <- priorityelasticnet(X = matrix(rnorm(50*190),50,190), Y = rbinom(50,1,0.5),
                       family = "binomial", type.measure = "auc",
                       blocks = list(block1=1:13,block2=14:80, block3=81:190),
                       block1.penalization = TRUE, lambda.type = "lambda.min",
                       standardize = FALSE, nfolds = 3, alpha = 1)

newdata_bin <- matrix(rnorm(10*190),10,190)

predict(object = pl_bin, newdata = newdata_bin, type = "response", alpha = 1)

Priority Elastic Net for High-Dimensional Data

Description

This function performs penalized regression analysis using the elastic net method, tailored for high-dimensional data with a known group structure. It also includes an optional feature to launch a Shiny application for model evaluation with weighted threshold optimization.

Usage

priorityelasticnet(
  X,
  Y,
  weights = NULL,
  family = c("gaussian", "binomial", "cox", "multinomial"),
  alpha = 0.5,
  type.measure,
  blocks,
  max.coef = NULL,
  block1.penalization = TRUE,
  lambda.type = "lambda.min",
  standardize = TRUE,
  nfolds = 10,
  foldid = NULL,
  cvoffset = FALSE,
  cvoffsetnfolds = 10,
  mcontrol = missing.control(),
  scale.y = FALSE,
  return.x = TRUE,
  adaptive = FALSE,
  initial_global_weight = TRUE,
  verbose = FALSE,
  ...
)

Arguments

X

A numeric matrix of predictors.

Y

A response vector. For family = "multinomial", Y should be a factor with more than two levels.

weights

Optional observation weights. Default is NULL.

family

A character string specifying the model type. Options are "gaussian", "binomial", "cox", and "multinomial". Default is "gaussian".

alpha

The elastic net mixing parameter, with 0 \le \alpha \le 1. The penalty is defined as (1-\alpha)/2||\beta||_2^2 + \alpha||\beta||_1. Default is 1.

type.measure

Loss function for cross-validation. Options are "mse", "deviance", "class", "auc". Default depends on the family.

blocks

A list where each element is a vector of indices indicating the predictors in that block.

max.coef

A numeric vector specifying the maximum number of non-zero coefficients allowed in each block. Default is NULL, meaning no limit.

block1.penalization

Logical. If FALSE, the first block will not be penalized. Default is TRUE.

lambda.type

Type of lambda to select. Options are "lambda.min" or "lambda.1se". Default is "lambda.min".

standardize

Logical flag for variable standardization, prior to fitting the model. Default is TRUE.

nfolds

Number of folds for cross-validation. Default is 10.

foldid

Optional vector of values between 1 and nfolds identifying what fold each observation is in. Default is NULL.

cvoffset

Logical. If TRUE, a cross-validated offset is used. Default is FALSE.

cvoffsetnfolds

Number of folds for cross-validation of the offset. Default is 10.

mcontrol

Control parameters for handling missing data. Default is missing.control().

scale.y

Logical. If TRUE, the response variable Y is scaled. Default is FALSE.

return.x

Logical. If TRUE, the function returns the input matrix X. Default is TRUE.

adaptive

Logical. If TRUE, the adaptive elastic net is used, where penalties are adjusted based on the importance of the coefficients from an initial model fit. Default is FALSE.

initial_global_weight

Logical. If TRUE (the default), global initial weights will be calculated based on all predictors. If FALSE, initial weights will be calculated separately for each block.

verbose

Logical. If TRUE prints detailed logs of the process. Default is FALSE.

...

Additional arguments to be passed to cv.glmnet.

Value

A list with the following components:

lambda.ind

Indices of the selected lambda values.

lambda.type

Type of lambda used.

lambda.min

Selected lambda values.

min.cvm

Cross-validated mean squared error for each block.

nzero

Number of non-zero coefficients for each block.

glmnet.fit

Fitted glmnet objects for each block.

name

Name of the model.

block1unpen

Fitted model for the unpenalized first block, if applicable.

coefficients

Coefficients of the fitted models.

call

The function call.

X

The input matrix X, if return.x is TRUE.

missing.data

Logical vector indicating missing data.

imputation.models

Imputation models used, if applicable.

blocks.used.for.imputation

Blocks used for imputation, if applicable.

missingness.pattern

Pattern of missing data, if applicable.

y.scale.param

Parameters for scaling Y, if applicable.

blocks

The input blocks.

mcontrol

Control parameters for handling missing data.

family

The model family.

dim.x

Dimensions of the input matrix X.

Note

Ensure that glmnet version >= 2.0.13 is installed. The function does not support single missing values within a block.

Examples



  # Simulation of multinomial data:
  set.seed(123)
  n <- 100
  p <- 50
  k <- 3
  x <- matrix(rnorm(n * p), n, p)
  y <- sample(1:k, n, replace = TRUE)
  y <- factor(y)
  blocks <- list(bp1 = 1:10, bp2 = 11:30, bp3 = 31:50)
  
  # Run priorityelasticnet:
  fit <- priorityelasticnet(x, y, family = "multinomial", alpha = 0.5, 
                     type.measure = "class", blocks = blocks,
                     block1.penalization = TRUE, lambda.type = "lambda.min", 
                     standardize = TRUE, nfolds = 5, 
                     adaptive = FALSE)
                     
   fit$coefficients

A Shiny App for Model Evaluation and Weighted Threshold Optimization

Description

This function starts a Shiny application that enables users to interactively adjust the threshold for binary classification and view related metrics, the confusion matrix, ROC curve, and PR curve. The app also includes a feature for calculating the optimal threshold using a weighted version of Youden's J-statistic.

Usage

weightedThreshold(object, ...)

Arguments

object

A result from priorityelasticnet function with binomial model family.

...

Additional arguments

Details

To calculate the optimal threshold, a weighted version of Youden's J-statistic (Youden, 1950) is used. The optimal cutoff is the threshold that maximizes the distance from the identity (diagonal) line. The function optimizes the metric (w * sensitivity + (1 - w) * specificity), where 'w' is the weight parameter adjusted using the second slider. After selecting the desired value on the optimal threshold slider, the user must press the "Set" button to update the threshold slider with the calculated optimal value. Metrics will then be automatically recalculated based on the user's selection. This function adapted from 'Monahov, A. (2021). Model Evaluation with Weighted Threshold Optimization (and the “mewto” R package). Available at SSRN 3805911.'

Value

No return value. This function is used for side effects only, specifically to launch a Shiny application for model evaluation with weighted threshold optimization. The Shiny app provides an interactive interface to visualize model performance metrics and optimize thresholds for classification models based on user-defined criteria.