General

• Bootstrap from Wikipedia.
  • This contains an overview of different methods for computing bootstrap confidence intervals.
  • boot.ci() from the 'boot' package provides a short explanation for different methods for computing bootstrap confidence intervals.
• Bootstrapping made easy and tidy with slipper
• bootstrap package. "An Introduction to the Bootstrap" by B. Efron and R. Tibshirani, 1993
• boot package. Functions and datasets for bootstrapping from the book Bootstrap Methods and Their Application by A. C. Davison and D. V. Hinkley (1997, CUP). A short course material can be found here.The main functions are boot() and boot.ci().
  • https://www.rdocumentation.org/packages/boot/versions/1.3-20
  • Resampling Methods in R: The boot Package by Canty
  • An introduction to bootstrap with applications with R by Davison and Kuonen.
  • http://people.tamu.edu/~alawing/materials/ESSM689/Btutorial.pdf
  • http://statweb.stanford.edu/~tibs/sta305files/FoxOnBootingRegInR.pdf
  • http://www.stat.wisc.edu/~larget/stat302/chap3.pdf
  • https://www.stat.cmu.edu/~cshalizi/402/lectures/08-bootstrap/lecture-08.pdf. Variance, se, bias, confidence interval (basic, percentile), hypothesis testing, parametric & non-parametric bootstrap, bootstrapping regression models.
  • Understanding Bootstrap Confidence Interval Output from the R boot Package which covers the nonparametric and parametric bootstrap.
• http://www.math.ntu.edu.tw/~hchen/teaching/LargeSample/references/R-bootstrap.pdf No package is used
• http://web.as.uky.edu/statistics/users/pbreheny/621/F10/notes/9-21.pdf Bootstrap confidence interval
• http://www-stat.wharton.upenn.edu/~stine/research/spida_2005.pdf
• Optimism corrected bootstrapping (Harrell et al 1996)
  • Adjusting for optimism/overfitting in measures of predictive ability using bootstrapping
  • Part 1: Optimism corrected bootstrapping: a problematic method
  • Part 2: Optimism corrected bootstrapping is definitely bias, further evidence
  • Part 3: Two more implementations of optimism corrected bootstrapping show shocking bias
  • Part 4: Why does bias occur in optimism corrected bootstrapping?
  • Part 5: Code corrections to optimism corrected bootstrapping series
• Bootstrapping Part 2: Calculating p-values!!! from StatQuest
• Using bootstrapped sampling to assess variability in score predictions. The rsample (General Resampling Infrastructure) package was used.
• Chapter 8 Bootstrapping and Confidence Intervals from the ebook "Statistical Inference via Data Science"

Nonparametric bootstrap

This is the most common bootstrap method

The upstrap Crainiceanu & Crainiceanu, Biostatistics 2018

Parametric bootstrap

• Parametric bootstraps resample a known distribution function, whose parameters are estimated from your sample
• http://www.math.ntu.edu.tw/~hchen/teaching/LargeSample/notes/notebootstrap.pdf#page=3 No package is used
• A parametric or non-parametric bootstrap?
• https://www.stat.cmu.edu/~cshalizi/402/lectures/08-bootstrap/lecture-08.pdf#page=11
• simulatorZ Bioc package

Examples

Standard error

• Standard error from a mean

  foo <- function() mean(sample(x, replace = TRUE))
  set.seed(1234)
  x <- rnorm(300)
  set.seed(1)
  sd(replicate(10000, foo()))
  # [1] 0.05717679
  sd(x)/sqrt(length(x)) # The se of mean is s/sqrt(n)
  # [1] 0.05798401
  
  set.seed(1234)
  x <- rpois(300, 2)
  set.seed(1)
  sd(replicate(10000, foo()))
  # [1] 0.08038607
  sd(x)/sqrt(length(x)) # The se of mean is s/sqrt(n)
  # [1] 0.08183151
  

• Difference of means from two samples (cf 8.3 The two-sample problem from the book "An introduction to Bootstrap" by Efron & Tibshirani)

  # Define the two samples
  sample1 <- 1:10
  sample2 <- 11:20
  
  # Define the number of bootstrap replicates
  nboot <- 100000
  
  # Initialize a vector to store the bootstrap estimates
  boot_estimates <- numeric(nboot)
  
  # Run the bootstrap
  set.seed(123)
  for (i in seq_len(nboot)) {
    # Resample the data with replacement
    resample1 <- sample(sample1, replace = TRUE)
    resample2 <- sample(sample2, replace = TRUE)
    
    # Compute the difference of means
    boot_estimates[i] <- mean(resample1) - mean(resample2)
  }
  
  # Compute the standard error of the bootstrap estimates
  se_boot <- sd(boot_estimates)
  
  # Print the result
  cat("Bootstrap SE estimate of difference of means:", se_boot, "\n")
  # 1.283541
  
  sd1 <- sd(sample1)
  sd2 <- sd(sample2)
  
  # Calculate the sample sizes
  n1 <- length(sample1)
  n2 <- length(sample2)
  
  # Calculate the true standard error of the difference of means
  se_true <- sqrt((sd1^2/n1) + (sd2^2/n2))
  
  # Print the result
  cat("True SE of difference of means:", se_true, "\n") \
  # 1.354006

Bootstrapping Extreme Value Estimators

Bootstrapping Extreme Value Estimators de Haan, 2022