Motorcycle Acceleration example

Last updated: 2018-11-06

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File	Version	Author	Date	Message
Rmd	f0059b3	Peter Carbonetto	2018-11-06	wflow_publish(“motorcycle.Rmd”)
Rmd	507a261	Peter Carbonetto	2018-11-06	Having trouble re-building spikesdemo.html.
Rmd	7f2ef79	Peter Carbonetto	2018-10-10	wflow_publish(“motorcycle.Rmd”)
Rmd	3b3d373	Peter Carbonetto	2018-10-09	Some more improvements to the motorcycle example.
Rmd	757462c	Peter Carbonetto	2018-10-09	Working on motorcycle .Rmd example.

This is an illustration of “smoothing via adaptive shrinkage” (SMASH) applied to the Motorcycle Accident data. This implements the “illustrative application” presented in Sec. 5.1 of the manuscript.

Initial setup instructions

To run this example on your own computer, please follow these setup instructions. These instructions assume you already have R and/or RStudio installed on your computer.

Download or clone the [git repository][smash-github] on your computer.

Launch R, and change the working directory to be the “analysis” folder inside your local copy of the git repository.

Install the devtools, wavethresh and EbayesThresh packages used here and in the code below:

install.packages(c("devtools","wavethresh","EbayesThresh"))

Finally, install the ashr and smashr packages from GitHub:

library(devtools)
install_github("stephens999/ashr",upgrade_dependencies = FALSE)
install_github("stephenslab/smashr",upgrade_dependencies = FALSE)

See the “Session Info” at the bottom for the versions of the software and R packages that were used to generate the results shown below.

Set up R environment

Load the MASS, wavethresh, EbayesThresh and smashr packages. The MASS package is loaded only for the Motorcycle Accident data. Some additional functions are defined in functions.motorcycle.R.

library(MASS)
library(scales)
library(lattice)
library(smashr)
library(wavethresh)
library(EbayesThresh)
source("../code/motorcycle.functions.R")

Note that the MASS and lattice packages are included in most standard R installations, so you probably don’t need to install these packages separately.

Prepare data for SMASH

Load the motorcycle data from the MASS package, and order the data points by time.

data(mcycle)
x.ini.mc <- sort(mcycle$times)
y.ini.mc <- mcycle$accel[order(mcycle$times)]

Run SMASH

Apply SMASH to the Motorcycle Accident data set.

res.mc <- smash.wrapper(x.ini.mc,y.ini.mc)

Summarize results of SMASH analysis

Create a plot showing the Motorcycle Accident data and the smash estimates (with the dashed red lines showing the confidence intervals).

plot(res.mc$x,res.mc$mu.est,type = "l",
     ylim = c(min(res.mc$y - 2 * sqrt(res.mc$var.est)),
              max(res.mc$y + 2 * sqrt(res.mc$var.est))),
     xlab = "time (ms)", ylab = "acceleration (g)",lwd = 2,
     col = "darkorange",xlim = c(0,60),xaxp = c(0,60,6))
lines(res.mc$x, res.mc$mu.est + 2*sqrt(res.mc$var.est),lty = 5,
     lwd = 2,col = "dodgerblue")
lines(res.mc$x,res.mc$mu.est - 2*sqrt(res.mc$var.est),
      lty = 5,lwd = 2,col = "dodgerblue")
points(res.mc$x,res.mc$y,pch = 1,cex = 1,col = "black")

Apply SMASH again, this time assuming equal variances

Apply SMASH (assuming equal variances) to the Motorcycle Accident data set.

res.cons.mc <- smash.cons.wrapper(x.ini.mc,y.ini.mc)

Apply TI thresholding to the Motorcycle Accident data

Apply TI thresholding to the Motorcycle Accident data set.

res.ti.cons.mc <- tithresh.cons.wrapper(x.ini.mc,y.ini.mc)

Apply TI thresholding to the Motorcycle Accident data, this time using the variances estimated by SMASH.

res.ti.mc <- tithresh.wrapper(x.ini.mc,y.ini.mc)

Compare results from all methods

In this second plot, we compare the mean estimate provided by SMASH (with heteroskedastic variances; orange line) against homoskedastic SMASH (dotted magenta line), TI thresholding (dark blue line), and TI thresholding when the variances have been estimated by SMASH (dotted green line).

plot(res.mc$x,res.mc$mu.est,type = "l",
     ylim = c(min(res.mc$y - 2 * sqrt(res.mc$var.est)),
              max(res.mc$y + 2 * sqrt(res.mc$var.est))),
     xlab = "time (ms)",ylab = "acceleration (g)",lwd = 2,
     col = "darkorange",xlim = c(0,60),xaxp = c(0,60,6))
lines(res.cons.mc$x,res.cons.mc$mu.est,lwd = 2,lty = "dotted",col = "magenta")
lines(res.ti.cons.mc$x,res.ti.cons.mc$mu.est,lwd = 2,lty = "solid",
      col = "darkblue")
lines(res.ti.mc$x,res.ti.mc$mu.est,lwd = 2,col = "limegreen",lty = "dotted")
points(res.mc$x,res.mc$y,pch = 1,cex = 0.8,col = "black")

Session information

sessionInfo()
# R version 3.4.3 (2017-11-30)
# Platform: x86_64-apple-darwin15.6.0 (64-bit)
# Running under: macOS High Sierra 10.13.6
# 
# Matrix products: default
# BLAS: /Library/Frameworks/R.framework/Versions/3.4/Resources/lib/libRblas.0.dylib
# LAPACK: /Library/Frameworks/R.framework/Versions/3.4/Resources/lib/libRlapack.dylib
# 
# locale:
# [1] en_US.UTF-8/en_US.UTF-8/en_US.UTF-8/C/en_US.UTF-8/en_US.UTF-8
# 
# attached base packages:
# [1] stats     graphics  grDevices utils     datasets  methods   base     
# 
# other attached packages:
# [1] EbayesThresh_1.4-12 wavethresh_4.6.8    smashr_1.2-0       
# [4] lattice_0.20-35     scales_0.5.0        MASS_7.3-48        
# 
# loaded via a namespace (and not attached):
#  [1] Rcpp_0.12.19      compiler_3.4.3    git2r_0.23.0     
#  [4] plyr_1.8.4        workflowr_1.1.1   R.methodsS3_1.7.1
#  [7] R.utils_2.6.0     bitops_1.0-6      iterators_1.0.9  
# [10] tools_3.4.3       digest_0.6.17     evaluate_0.11    
# [13] Matrix_1.2-12     foreach_1.4.4     yaml_2.2.0       
# [16] parallel_3.4.3    stringr_1.3.1     knitr_1.20       
# [19] caTools_1.17.1    REBayes_1.3       rprojroot_1.3-2  
# [22] grid_3.4.3        data.table_1.11.4 rmarkdown_1.10   
# [25] ashr_2.2-23       magrittr_1.5      whisker_0.3-2    
# [28] backports_1.1.2   codetools_0.2-15  htmltools_0.3.6  
# [31] assertthat_0.2.0  colorspace_1.4-0  stringi_1.2.4    
# [34] Rmosek_8.0.69     munsell_0.4.3     doParallel_1.0.11
# [37] pscl_1.5.2        truncnorm_1.0-8   SQUAREM_2017.10-1
# [40] R.oo_1.21.0

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