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head/foot}\hfill\insertpagenumber \end{beamercolorbox}}% \vskip0pt% } %\usecolortheme[named=kugreen]{structure} %\useinnertheme{circles} %\setbeamercovered{transparent} %\setbeamertemplate{blocks}[rounded][shadow=true] \setbeamertemplate{blocks}[default] \setbeamerfont{itemize/enumerate subbody}{size=\footnotesize} \setbeamertemplate{itemize items}[circle] \newenvironment<>{Ex}[1]{% \begin{actionenv}#2% \def\insertblocktitle{Example: #1}% \par% \mode{% \setbeamercolor{block title}{use=structure,fg=darkmidnightblue,bg=babyblue} \setbeamercolor{block body}{use=structure,fg=black,bg=bubbles} \setbeamertemplate{itemize item}{\scriptsize\raise1.25pt\hbox{\donotcoloroutermaths$\bullet$}} }% \usebeamertemplate{block begin}\justifying} {\par\usebeamertemplate{block end}\end{actionenv}} \newenvironment<>{Thm}[1]{% \begin{actionenv}#2% \def\insertblocktitle{Theorem: #1}% \par% \mode{% \setbeamercolor{block title}{use=structure,fg=white,bg=darkgreen} \setbeamercolor{block body}{use=structure,fg=black,bg=lightgreen} \setbeamercolor{itemize item}{fg=orange!20!black} \setbeamertemplate{itemize item}[circle] }% \usebeamertemplate{block begin}\justifying} {\par\usebeamertemplate{block end}\end{actionenv}} \newenvironment<>{Nt}[1]{% \begin{actionenv}#2% \def\insertblocktitle{Note}% \par% \mode{% \setbeamercolor{block title}{use=structure,fg=white,bg=darkblue} \setbeamercolor{block body}{use=structure,fg=black,bg=azurewm} \setbeamercolor{itemize item}{fg=orange!20!black} \setbeamertemplate{itemize item}[circle] }% \usebeamertemplate{block begin}\justifying} {\par\usebeamertemplate{block end}\end{actionenv}} \newcounter{myNote} \newcommand{\myNote}{\arabic{myNote}} \setcounter{myNote}{1} \renewcommand*{\thefootnote}{[\arabic{footnote}]} \renewenvironment<>{Note}{% \begin{actionenv}% \def\insertblocktitle{Note \myNote.}% \par% \mode{% \setbeamercolor{block title}{use=structure,fg=white,bg=darkblue} \setbeamercolor{block body}{use=structure,fg=black,bg=lightblue} \setbeamercolor{itemize item}{fg=orange!20!black} \setbeamertemplate{itemize item}[circle] }% \usebeamertemplate{block begin}\addtocounter{myNote}{1}\justifying} {\par\usebeamertemplate{block end}\end{actionenv}} \date{ } % % The following info should normally be given in you main file: % \usepackage{tikz} \newcommand{\topline}{% \tikz[remember picture,overlay] {% \draw[midgray] ([yshift=-1cm]current page.north west) -- ([yshift=-1cm,xshift=\paperwidth]current page.north west);}} \setbeamertemplate{frametitle}{% \nointerlineskip \begin{beamercolorbox}[sep=0.3cm,ht=1.8em,wd=\paperwidth,rightskip=0cm]{frametitle}% \usebeamerfont{frametitle}\usebeamercolor[fg]{frametitle} \vbox{}\vskip-2ex% \strut\insertframetitle\strut \vskip-1.2ex% \end{beamercolorbox}% } \newcommand\mypart[1]{#1} %\setbeamertemplate{frametitle continuation}[from %second][(\lowercase{\insertcontinuationcountroman})] \setbeamertemplate{frametitle continuation}[from second][] \setbeamertemplate{section in toc}{\insertpartnumber.\inserttocsectionnumber\hspace*{1em}\inserttocsection} \title{Propensity Score Methods, Models and Adjustment} \author{Dr David A. Stephens} \institute{ Department of Mathematics \& Statistics\\ McGill University\\ Montreal, QC, Canada. \vspace{0.1 in} \texttt{david.stephens@mcgill.ca}\\ \texttt{\texttt{www.math.mcgill.ca/dstephens/SISCER2020/}} } \titlegraphic{\includegraphics[width=1.93cm,height=2cm]{McGillLogo}} \setbeamertemplate{itemize item}{\scriptsize\raise1.25pt\hbox{\donotcoloroutermaths$\bullet$}} \setbeamertemplate{itemize subitem}{\tiny\raise1.25pt\hbox{\donotcoloroutermaths$\blacktriangleright$}} \usepackage{etoolbox} %\usepackage{setspace} %\addtocontents{toc}{\protect\setstretch{0.9}} \usepackage{ragged2e} \apptocmd{\frame}{}{\justifying}{} % Allow optional arguments after frame. %\usepackage[bookmarks=true]{hyperref} \lstset{basicstyle=\ttfamily\tiny, numbers=left, numberstyle=\tiny, stepnumber=1, numbersep=5pt} \begin{document} %\part{NHANES Example} \setbeamercolor{author in head/foot}{bg=white, fg=mcgillred} \setbeamercolor{title in head/foot}{bg=white, fg=mcgillred} { \setbeamertemplate{footline} {% \leavevmode% \hbox{\begin{beamercolorbox}[wd=.5\paperwidth,ht=2.5ex,dp=1.125ex,leftskip=.3cm plus1fill,rightskip=.3cm]{author in head/foot}% \usebeamerfont{author in head/foot} \end{beamercolorbox}% \begin{beamercolorbox}[wd=.5\paperwidth,ht=2.5ex,dp=1.125ex,leftskip=.3cm,rightskip=.3cm plus1fil]{title in head/foot}% \usebeamerfont{title in head/foot}\hfill\insertpagenumber \end{beamercolorbox}}% \vskip0pt% } <>= library(knitr) # global chunk options opts_chunk$set(cache=TRUE, autodep=TRUE, size = "scriptsize") options(scipen=5) options(repos=c(CRAN="https://cloud.r-project.org/")) @ %\frame{\titlepage} \begin{frame}[fragile,allowframebreaks]\frametitle{The Metropolis-Hastings Algorithm} The Metropolis-Hastings algorithm is a Markov chain method for exploring a target distribution $\pi$. \medskip The algorithm implements a sequence of moves that \begin{enumerate}[label=(\roman*)] \item propose a new value $z$ from a proposal distribution $q$ that can depend on the current point of the chain $x$; usually this takes the form of a conditional density \[ q(x \rightarrow z) = q(z|x) \] then \item accept $z$ with probability \[ \alpha(x,z) = \min \left\{1,\frac{\pi(z)}{\pi(x)} \frac{q(z \rightarrow x)}{q(x \rightarrow z)} \right\} \] If the proposal is not accepted, the Markov chain stays at $x$. \end{enumerate} \framebreak Suppose that \[ \pi(x_1,x_2) = \frac{1}{\pi} \qquad x_1^2+x_2^2 < 1 \] and zero otherwise. This distribution is Uniform on the unit disk. \medskip Suppose that \[ q((x_1,x_2) \rightarrow (z_1,z_2)) = \frac{1}{\delta^2} \] for \[ \qquad x_1 - \delta/2 < z_1 < x_1 + \delta/2, x_2 - \delta/2 < z_2 < x_2 + \delta/2 \] that is, the proposal is Uniform on the square of edge length $\delta$ centered at $(x_1,x_2)$. \framebreak Then we have that \[ \alpha((x_1,x_2) , (z_1,z_2)) = 1 \] provided \[ z_1^2+z_2^2 < 1 \] otherwise $\alpha((x_1,x_2) , (z_1,z_2)) = 0$. <>= set.seed(32) nits<-100000 xmat<-matrix(0,nrow=nits,ncol=2) delta<-0.1 for(iter in 2:nits){ z<-xmat[iter-1,]+runif(2,-delta/2,delta/2) if(sum(z^2) < 1){ xmat[iter,]<-z }else{ xmat[iter,]<-xmat[iter-1,] } } th<-seq(-pi,pi,by=0.01) xv<-cos(th) yv<-sin(th) par(pty='s',mar=c(4,4,4,2)) plot(xmat[1:100,],pch=19,cex=0.5,main=paste('100 steps'), xlim=range(-1,1),ylim=range(-1,1), xlab=expression(x[1]),ylab=expression(x[2])) lines(xmat[1:100,]) lines(xv,yv,col='red',lwd=2) @ \framebreak <>= par(pty='s',mar=c(4,4,4,2)) plot(xmat[1:10000,],pch=19,cex=0.5,main=paste('10000 steps'), xlim=range(-1,1),ylim=range(-1,1), xlab=expression(x[1]),ylab=expression(x[2])) lines(xv,yv,col='red',lwd=2) @ \framebreak <>= par(pty='s',mar=c(4,4,4,2)) plot(xmat,pch=19,cex=0.5,main=paste('100000 steps'), xlim=range(-1,1),ylim=range(-1,1), xlab=expression(x[1]),ylab=expression(x[2])) lines(xv,yv,col='red',lwd=2) @ \framebreak Suppose that \[ \pi(x_1,x_2) = c \exp\{-\beta h(x_1,x_2)\} \qquad -5 < x_1,x_2 < 5 \] and zero otherwise, where \[ h(x_1,x_2) = (x_1^2+x_2-11)^2 + (x_1+x_2^2-7)^2 \] and $\beta>0$ is a fixed constant, say $\beta = 0.01$. \framebreak <>= test.func<-function(x1,x2,bv=1){ hval<-(x1^2+x2-11)^2 + (x1+x2^2-7)^2 fval<-exp(-bv*hval) return(fval) } f <- Vectorize(test.func,vectorize.args=c("x1","x2")) x1v<-x2v<-seq(-5,5,by=0.1) be<-0.01;dmat<-outer(x1v,x2v,f,bv=be) @ <>= library(fields,quietly=TRUE) par(pty='s',mar=c(4,3,2,2)) cols<-c("blue","lightblue","white","yellow","orange","red") colfunc <- colorRampPalette(cols) image.plot(x1v,x2v,dmat,col=colfunc(100), xlab=expression(x[1]),ylab=expression(x[2]),cex.axis=0.8) contour(x1v,x2v,dmat,add=T,nlevels=20) @ \framebreak Suppose that as before \[ q((x_1,x_2) \rightarrow (z_1,z_2)) = \frac{1}{\delta^2} \] for \[ \qquad x_1 - \delta/2 < z_1 < x_1 + \delta/2, x_2 - \delta/2 < z_2 < x_2 + \delta/2 \] that is, the proposal is Uniform on the square of edge length $\delta$ centered at $(x_1,x_2)$. \framebreak Then we have that \[ \alpha((x_1,x_2) , (z_1,z_2)) = \min \left\{ 1, \frac{\exp\{-\beta h(z_1,z_2)\}}{\exp\{-\beta h(x_1,x_2)\}} \right\} \] provided \[ -5 < z_1, z_2 < 5 \] otherwise $\alpha((x_1,x_2) , (z_1,z_2)) = 0$. <>= set.seed(312) nits<-10000 xmat<-matrix(0,nrow=nits,ncol=2) delta<-0.5 be<-0.01 for(iter in 2:nits){ z<-xmat[iter-1,]+runif(2,-delta/2,delta/2) if(abs(z[1])>5 | abs(z[2]) > 5){ xmat[iter,]<-xmat[iter-1,] }else{ u<-runif(1) num<-log(test.func(z[1],z[2],be)) den<-log(test.func(xmat[iter-1,1],xmat[iter-1,2],be)) if(log(u) < num-den){ xmat[iter,]<-z }else{ xmat[iter,]<-xmat[iter-1,] } } } @ \framebreak <>= par(pty='s',mar=c(4,3,2,2)) cols<-c("blue","lightblue","white","yellow","orange","red") colfunc <- colorRampPalette(cols) image.plot(x1v,x2v,dmat,col=colfunc(100), xlab=expression(x[1]),ylab=expression(x[2]),cex.axis=0.8) contour(x1v,x2v,dmat,add=T,nlevels=20) points(xmat,pch=19,cex=0.5,main=paste('1000 steps')) @ \framebreak <>= par(mar=c(4,3,2,2)) plot(1:nits,xmat[,1],type='l',col='red',xlab='Iteration') lines(1:nits,xmat[,2],col='blue') @ \end{frame} \end{document}