r501: no message

diff --git a/doc/ctsim-concepts.tex b/doc/ctsim-concepts.tex
index 1d2d01bfe27a061aaf2b9d7fdec461f200feec94..f8c0da1d7eae57288758b15059be6bf1ad0facea 100644 (file)
--- a/doc/ctsim-concepts.tex
+++ b/doc/ctsim-concepts.tex
@@ -181,6 +181,7 @@ For parallel geometry scanning, the focal length doesn't matter. However,
 divergent geometry scanning (equilinear and equiangular), the \emph{focal
 length ratio} should be set at \texttt{2} or more to avoid artifacts. 
 
+       
 \subsection{Parallel Geometry}\label{geometryparallel}\index{Concepts,Scanner,Geometries,Parallel}
 
 As mentioned above, the focal length is not used in this simple
@@ -192,6 +193,7 @@ the default values of \texttt{1} for the \emph{view diameter ratio} and
 the \emph{scan diameter ratio}. If values of less than \texttt{1} are
 used for these two variables, significant distortions will occur.
 
+
 \subsection{Divergent Geometries}\label{geometrydivergent}\index{Concepts,Scanner,Geometries,Divergent}
 \subsubsection{Overview}
 Next consider the case of equilinear (second generation) and equiangular
@@ -206,6 +208,7 @@ See figure 2.2.
 \caption{Equilinear and equiangular geometries.}
 \end{figure}
 
+
 \subsubsection{Fan Beam Angle}
 For these divergent beam geometries, the \emph{fan beam angle} needs 
 to be calculated. For real-world CT scanners, this is fixed at the
@@ -220,9 +223,10 @@ This is illustrated in figure 2.3.
 \caption{Calculation of $\alpha$}
 \end{figure}
 
+
 Empiric testing with \ctsim\ shows that for very large \emph{fan beam angles},
 greater than approximately 
-\latexonly{$120^{\circ}$,}\latexignore{120 degrees,}
+\latexonly{$120^\circ$,}\latexignore{120 degrees,}
 there are significant artifacts. The primary way to manage the
 \emph{fan beam angle} is by varying the \emph{focal length} since the
 \emph{scan diameter} by the size of the phantom.
@@ -257,6 +261,7 @@ and the \emph{focal length}. It is calculated as
 \end{figure}
 An example of the this geometry is in figure 2.5.
 
+
 \subsubsection{Examples of Geometry Settings}
 Consider increasing the focal length ratio to two leaving the
 field of view ratio as 1,  as in  Figure 4.  Now the detectors array is
@@ -301,4 +306,3 @@ filters for this purpose.
 Backprojection is the process of ``smearing'' the filtered projections over
 the reconstructing image. Various levels of interpolation can be specified.
 In general, the trade-off is between quality and execution time.
-

diff --git a/doc/ctsim.hlp b/doc/ctsim.hlp
index 3adace370838de5f51c96c030434e5eb12c319c4..4efe16970d9cb3f6005a6bc703ab072842e3ea45 100644 (file)
Binary files a/doc/ctsim.hlp and b/doc/ctsim.hlp differ

diff --git a/doc/ctsim.tex b/doc/ctsim.tex
index 49ccc9d8d9b85777a87c62cb279809d4af993fa9..7501625a60fd232ee4a5239c124b7c10fdae2af7 100644 (file)
--- a/doc/ctsim.tex
+++ b/doc/ctsim.tex
@@ -27,11 +27,11 @@
 \parskip=10pt%
 \parindent=0pt%
 %\backgroundcolour{255;255;255}\textcolour{0;0;0}% Has an effect in HTML only
-\winhelpignore{\title{Manual for CTSim 3.0}%
+\winhelpignore{\title{CTSim 3.0 User Manual}%
 \author{Kevin Rosenberg, M.D.}%
 \date{January 2001}%
 }%
-\winhelponly{\title{Manual for CTSim 3.0}%
+\winhelponly{\title{CTSim 3.0 User Manual}%
 \author{by Kevin Rosenberg, M.D.\\$$\image{3cm;3cm}{logo-huge.bmp}$$}%
 }%
 \makeindex%

diff --git a/doc/mytitle.sty b/doc/mytitle.sty
index 1dbacdc56816bfff940e2dcb34530ebb26bd993c..003697870b7676d3aa4a246026f21c2c75151340 100644 (file)
--- a/doc/mytitle.sty
+++ b/doc/mytitle.sty
@@ -8,7 +8,7 @@
 {\huge \sf\@title\\\rule{\textwidth}{0.5mm}} \vskip 3em {\large \lineskip .75em
 {\sf\@author}
 \par
-Manual co-author Ian Kay, Ph.D.}
+{\sf Manual co-author Ian Kay, Ph.D.}}
 \vskip 1.5em {\large\sf \@date \par} \end{flushleft} \par
 \@thanks
 \vfill

diff --git a/doc/tex2rtf.ini b/doc/tex2rtf.ini
index c64b45c689fe485db29fef03cb81a08fd777571d..3d34cd5631bab017def7b4800b7d6fd2bda5f460 100644 (file)
--- a/doc/tex2rtf.ini
+++ b/doc/tex2rtf.ini
@@ -8,5 +8,9 @@ useUpButton = yes
 winHelpTitle = "CTSim Manual"
 \mathrm [1]{}
 \sqrt [1]{}
+\sin [0]{}
+\tan [0]{}
+\hyphenation [1]{}
+\circ [0]{}