Clean up index
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@ -12,7 +12,7 @@
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\section{Overview of Ground Stations}
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\label{sec:overview-groundstations}
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\index{camera}
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\index{receiver}\index{embedded system}
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\index{receiver}
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\Glspl{ground-station} are a setup of equipment such as \glspl{embedded-system}, cameras,
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\glspl{SDR}, \glspl{antenna}, and receivers, located on Earth, observing space.
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@ -29,7 +29,6 @@ It shows a \gls{SatNOGS} \gls{ground-station} with \gls{VHF} (right) and \gls{UH
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\glspl{antenna} on a \gls{mast} with an \gls{Alt-Az} \gls{rotator}.
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\glspl{SDR} can be used as \gls{RF} receivers.%
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\footnote{\cite{Wiki22:softwdefinradiowikipfreeencyc}}
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\index{radio}
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\begin{figure}[p!]
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\begin{center}
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@ -37,7 +36,6 @@ It shows a \gls{SatNOGS} \gls{ground-station} with \gls{VHF} (right) and \gls{UH
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\includegraphics[keepaspectratio=true,height=1.00\textheight,width=1.00\textwidth,angle=0]{spacecruft-rotator.png}
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\caption{SatNOGS ground station with antennas.}
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\label{fig:spacecruft-rotator}
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\index{radio}
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\end{center}
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\end{figure}
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@ -51,7 +51,7 @@ The chapters that follow are listed below.
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\item [Acquire] --- Convert \glspl{photon} to bits. Pointing a camera at the
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sky works.\index{camera}
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\item [Solve] --- Pictures of stars reveal the time and location of
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the photo. Plate solvers reviewed.\index{plate solver}
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the photo. Plate solvers reviewed.
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\item [Detect] --- The plate solver says where the photo is,
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now detect if are there moving trails that aren't \glspl{star-trail} that could
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be \glspl{satellite}.
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@ -64,7 +64,7 @@ The chapters that follow are listed below.
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\end{mdframed}
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\index{process}\index{hardware}\index{software}
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\index{acquire}\index{solve}\index{detect}\index{identify}\index{upload}
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\index{support}\index{plate solver}
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\index{support}
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\section{Libre Space Foundation}
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@ -267,7 +267,7 @@ leftmargin=1cm,rightmargin=1cm
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\glssetcategoryattribute{acronym}{dualindex}{hyperpage}
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% First letter upper
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\glssetcategoryattribute{general}{glossname}{firstuc}
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%\glssetcategoryattribute{general}{glossname}{firstuc}
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%%% END GLOSSARY %%%
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%%% DEBUG %%%
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@ -38,9 +38,9 @@ See figure \ref{fig:snopo}, page \pageref{fig:snopo}, described below.
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\end{description}
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\end{mdframed}
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\index{hardware}\index{software}\index{acquire}\index{detect}\index{identify}
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\index{embedded system}\index{camera}\index{plate solver}
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\index{camera}
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\index{plate solver}
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\begin{sidewaysfigure}[p!]
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\begin{center}
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@ -60,7 +60,7 @@ explored. More explicit instructions of a particular hardware installation
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can be see in section \ref{sec:hardware-overview}, page \pageref{sec:hardware-overview}.
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Discussed below are camera options, for details on \glspl{embedded-system} and other parts,
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also see hardware in section \ref{sec:hardware-overview}, page \pageref{sec:hardware-overview}
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\index{embedded system}\index{camera}
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\index{camera}
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For the purposes here, there are three main categories of hardware. Depending which
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category of equipment is selected, it impacts everything else, such as the
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@ -173,5 +173,5 @@ There are also broader ``paths'' that need to be considered:
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\end{mdframed}
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\index{motion video}
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\index{still camera}\index{allsky}\index{stphot}\index{allsky}
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\index{plate solver}
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@ -11,7 +11,7 @@
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\section{Plate Solver}
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\label{sec:plate-solver}
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\index{plate solver}
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A ``\gls{plate-solver}'' will take an image of stars and detect the time and place
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of the picture. There are two main steps:
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@ -92,7 +92,7 @@ a plate of stars that has been extracted from \texttt{Source Extractor}. XXX
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\section{Star Catalogues}
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\label{sec:star-catalogues}
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\index{star-catalogue}\index{plate solver}
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\index{star-catalogue}
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To use a \gls{plate-solver}, you will need \glspl{star-catalogue}. They can get large.
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The \texttt{stvid} application includes a basic \gls{star-catalogue}.
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@ -115,7 +115,7 @@ XXX The \texttt{4200} index series is also recommended.
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\section{Plate Solving with \texttt{stvid}}
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\label{sec:plate-solving-stvid}
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\index{plate solver}\index{process}
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\index{process}
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Use the \texttt{process.py} scripts described in section \ref{sec:plate-solver},
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page \pageref{sec:plate-solver}, to solve plates
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@ -147,7 +147,7 @@ The blue lines are drawn whether no, a few, or many satellites are detected.
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They are generated by taking data from the \gls{plate-solver} about where the picture
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\gls{FOV} is, and overlaying satellite \glspl{orbit} that are calculated from
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\glspl{TLE}.
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\index{detect}\index{plate solver}
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\index{detect}
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The main blue line is slightly offset from where the satellite is calculated to
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appear.
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