% Created 2023-09-20 Wed 15:58 % Intended LaTeX compiler: pdflatex \documentclass[11pt]{article} \usepackage[utf8]{inputenc} \usepackage[T1]{fontenc} \usepackage{graphicx} \usepackage{longtable} \usepackage{wrapfig} \usepackage{rotating} \usepackage[normalem]{ulem} \usepackage{amsmath} \usepackage{amssymb} \usepackage{capt-of} \usepackage{hyperref} \notindent \notag \usepackage{amsmath} \usepackage[a4paper,margin=1in,portrait]{geometry} \author{Elizabeth Hunt} \date{\today} \title{HW 02} \hypersetup{ pdfauthor={Elizabeth Hunt}, pdftitle={HW 02}, pdfkeywords={}, pdfsubject={}, pdfcreator={Emacs 28.2 (Org mode 9.7-pre)}, pdflang={English}} \begin{document} \maketitle \setlength\parindent{0pt} \section{Question One} \label{sec:org859695d} \subsection{Partition Refinement} \label{sec:org55dda6e} \{ \{q\textsubscript{0}, q\textsubscript{1}, q\textsubscript{3}\}, \{q\textsubscript{2}, q\textsubscript{4}\} \} S\textsubscript{1} = \{(q\textsubscript{0}, q\textsubscript{1}), (q\textsubscript{0}, q\textsubscript{3}), (q\textsubscript{1}, q\textsubscript{3})\} S\textsubscript{2} = \{(q\textsubscript{2}, q\textsubscript{4})\} \(\delta\)(q\textsubscript{0}, 1) = q\textsubscript{3} \(\in\) S\textsubscript{1} \(\delta\)(q\textsubscript{1}, 1) = q\textsubscript{4} \(\in\) S\textsubscript{2} (q\textsubscript{0}, q\textsubscript{1}) need to be split \(\delta\)(q\textsubscript{0}, 0) = q\textsubscript{1} \(\in\) S\textsubscript{1} \(\delta\)(q\textsubscript{3}, 0) = q\textsubscript{2} \(\in\) S\textsubscript{2} (q\textsubscript{1}, q\textsubscript{2}) need to be split \(\forall\) x \(\in\) \(\Sigma\), \(\delta\)(q\textsubscript{1}, x) = \(\delta\)(q\textsubscript{3}, x) so \{q\textsubscript{1}, q\textsubscript{3}\} does not need to be split In S\textsubscript{2}, \(\delta\)(q\textsubscript{2}, 0) \(\in\) S\textsubscript{1} and \(\delta\)(q\textsubscript{4}, 0) \(\in\) S\textsubscript{2}, thus need to be split Finally, the refined partitions are \{\{q\textsubscript{0}\}, \{q\textsubscript{1}, q\textsubscript{3}\}, \{q\textsubscript{2}\}, \{q\textsubscript{4}\}\} \subsection{Minimization} \label{sec:org870d4d3} \begin{center} \begin{tabular}{rllll} a \(\in\) \(\Sigma\) & \{q\textsubscript{0}\} & \{q\textsubscript{1}, q\textsubscript{3}\} & \{q\textsubscript{2}\} & \{q\textsubscript{4}\}\\[0pt] 0 & \{q\textsubscript{1}, q\textsubscript{3}\} & \{q\textsubscript{2}\} & \{q\textsubscript{1}, q\textsubscript{3}\} & \{q\textsubscript{4}\}\\[0pt] 1 & \{q\textsubscript{1}, q\textsubscript{3}\} & \{q\textsubscript{4}\} & \{q\textsubscript{4}\} & \{q\textsubscript{4}\}\\[0pt] \end{tabular} \end{center} with d\textsubscript{0} = \{q\textsubscript{0}\}, d\textsubscript{1} = \{q\textsubscript{1}, q\textsubscript{3}\}, d\textsubscript{2} = \{q\textsubscript{2}\} and d\textsubscript{3} = \{q\textsubscript{4}\} \begin{center} \includegraphics[width=350px]{./img/min_dfa.png} \end{center} \section{Question Two} \label{sec:orga1d2018} See attached python \end{document}