X-Git-Url: http://git.kpe.io/?a=blobdiff_plain;f=doc%2Fctsim-textui.tex;h=6f7a5de96bef9aac97a1cb6dd9aa4911c5b4c9af;hb=512a128ce9bc1d4a4477df791d2a1e63148752af;hp=dae488620352eaad31c406d87afaca8bc5d076e0;hpb=14703961237e3bc231dbc06aeea7fdd921eee970;p=ctsim.git diff --git a/doc/ctsim-textui.tex b/doc/ctsim-textui.tex index dae4886..6f7a5de 100644 --- a/doc/ctsim-textui.tex +++ b/doc/ctsim-textui.tex @@ -168,10 +168,10 @@ by the absolute value of distance from zero frequency. \item abs\_hamming \end{itemize} } -\twocolitem{\textbf{--filter-parameter}}{Sets the alpha level for Hamming +\twocolitem{\textbf{\-\-filter-parameter}}{Sets the alpha level for Hamming window. At setting of 0.54, this equals the Hanning window.} -\twocolitem{\textbf{--filter-method}}{Selects the filtering method. For large numbers of detectors, \texttt{rfftw} is optimal. For smaller numbers of detectors, \texttt{convolution} might be a bit faster. +\twocolitem{\textbf{\-\-filter-method}}{Selects the filtering method. For large numbers of detectors, \texttt{rfftw} is optimal. For smaller numbers of detectors, \texttt{convolution} might be a bit faster. \begin{itemize}\itemsep=0pt \item convolution \item fourier @@ -180,7 +180,7 @@ by the absolute value of distance from zero frequency. \item rfftw \end{itemize} } -\twocolitem{\textbf{--filter-generation}}{Selects the filter generation. With convolution, \texttt{direct} is the proper method to select. With any of the frequency methods, \texttt{inverse-fourier} is the best method. +\twocolitem{\textbf{\-\-filter-generation}}{Selects the filter generation. With convolution, \texttt{direct} is the proper method to select. With any of the frequency methods, \texttt{inverse-fourier} is the best method. \begin{itemize}\itemsep=0pt \item direct \item inverse-fourier