\usepackage{times}
\usepackage{hyperref}
-\newcommand{\ctsim}{{\it CTSim}}
-\newcommand{\ctsimtext}{{\it CTSimText}}
+\newcommand{\ctsim}{{\tt CTSim}}
+\newcommand{\ctsimtext}{{\tt CTSimText}}
\newcommand{\commandref}[2]{\helpref{{\tt $\backslash$#1}}{#2}}%
\newcommand{\commandrefn}[2]{\helprefn{{\tt $\backslash$#1}}{#2}\index{#1}}%
See the INSTALL file included in the source distribution for instructions.
\section{Requirements}\index{Installation,Build,Requirements}%
- \item Building CTSim
\begin{itemize}\itemsep=0pt
\item zlib Library (optional)
\par Used for PNG file export.
\par Used for debugging memory allocation
\par www.dmalloc.com
- \item wxWindows library (optional) \par Used for
- platform-independent graphical interface. The graphical-shell
- program \ctsim requires this library. \par www.wxwindows.org
+ \item wxWindows library (optional)
+ \par Used for platform-independent graphical interface. The graphical-shell
+ program \ctsim requires this library.
+ \par www.wxwindows.org
- \end{itemize}
\end{itemize}
\chapter{ctsim - the Graphical User Interface}%\index{ctsim}%
Sets the distance of the radiation source and detectors from the center of the object as a ratio of the radius of the object. For parallel geometries, a value of 1.0 is fine. For other geometries, this should be at least 2.0 to avoid artifacts.
\end{itemize}
+The Herman phantom is taken with permission from Gabor Hermans 1980 book\cite{HERMAN80}. The Shepp-Logan phantom was published in 1974\cite{SHEPP74}.
+
\subsection{phm2if}\index{Programs,ctsimtext,phm2if}%
Converts a geometric phantom object into an imagefile. The size of the
imagefile in pixels must be specified as well as the number of samples
\newpage
-\nocite{KAK87}
-\nocite{PRESS82}
-\nocite{SHEPP74}
-
\bibliographystyle{plain}
\bibliography{ctsim}
\addcontentsline{toc}{chapter}{Bibliography}