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Venn Diagram Comparison of Boruta, FSelectorRcpp and GLMnet Algorithms

时间:2016-06-21 17:36:44      阅读:226      评论:0      收藏:0      [点我收藏+]

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I would like to thank Magda Sobiczewska and pbiecek for inspiration for this comparison. I have a chance to use Boruta nad FSelectorRcpp in action. GLMnet is here only to improve Venn Diagram.

RTCGA data

Data used for this comparison come from RTCGA (http://rtcga.github.io/RTCGA/) and present genes’ expressions (RNASeq) from human sequenced genome. Datasets with RNASeq are available viaRTCGA.rnaseq data package and originally were provided by The Cancer Genome Atlas. It’s a great set of over 20 thousand of features (1 gene expression = 1 continuous feature) that might have influence on various aspects of human survival. Let’s use data for Breast Cancer (Breast invasive carcinoma / BRCA) where we will try to find valuable genes that have impact on dependent variable denoting whether a sample of the collected readings came from tumor or normal, healthy tissue.

## try http:// if https:// URLs are not supported
source("https://bioconductor.org/biocLite.R")
biocLite("RTCGA.rnaseq")
library(RTCGA.rnaseq)
BRCA.rnaseq$bcr_patient_barcode <- 
   substr(BRCA.rnaseq$bcr_patient_barcode, 14, 14)

The dependent variable, bcr_patient_barcode, is the TCGA barcode from which we receive information whether a sample of the collected readings came from tumor or normal, healthy tissue (14th character in the code).

Check another RTCGA use case: TCGA and The Curse of BigData.

GLMnet

Logistic Regression, a model from generalized linear models (GLM) family, a first attempt model for class prediction, can be extended with regularization net to provide prediction and variables selection at the same time. We can assume that not valuable features will appear with equal to zero coefficient in the final model with best regularization parameter. Broader explanation can be found in the vignette of the glmnet package. Below is the code I use to extract valuable features with the extra help of cross-validation and parallel computing.

library(doMC)
registerDoMC(cores=6)
library(glmnet)
# fit the model
cv.glmnet(x = as.matrix(BRCA.rnaseq[, -1]),
          y = factor(BRCA.rnaseq[, 1]),
          family = "binomial", 
          type.measure = "class", 
          parallel = TRUE) -> cvfit
# extract feature names that have 
# non zero coefficiant
names(which(
   coef(cvfit, s = "lambda.min")[, 1] != 0)
   )[-1] -> glmnet.features
# first name is intercept

Function coef extracts coefficients for fitted model. Argument s specifies for which regularization parameter we would like to extract them - lamba.min is the parameter for which miss-classification error is minimal. You may also try to use lambda.1se.

plot(cvfit)

技术分享

Discussion about standardization for LASSO can be found here. I normally don’t do this, since I work with streaming data, for which checking assumptions, model diagnostics and standardization is problematic and is still a rapid field of research.

转自:http://r-addict.com/2016/06/19/Venn-Diagram-RTCGA-Feature-Selection.html

 

Venn Diagram Comparison of Boruta, FSelectorRcpp and GLMnet Algorithms

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原文地址:http://www.cnblogs.com/payton/p/5604104.html

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