forked from spacecruft/SNOUG
small fixes
parent
a871716e87
commit
259d663968
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@ -198,7 +198,7 @@
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\newglossaryentry{skymap}
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{ name={skymap},
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description={is part of \gls{sattools}. Vizualize \glspl{satellite} on a map of the sky.%
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description={is part of \gls{sattools}. Visualize \glspl{satellite} on a map of the sky.%
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\footnote{\url{https://github.com/cbassa/sattools/blob/master/skymap.c}}
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}}
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@ -398,13 +398,12 @@
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% IMX174
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% OpenCV
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% MIPI
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% f stop etc.
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% Kstars
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% f-stop etc.
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% KStars
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% ekos
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% gphoto
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% distributions
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% stphot
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% SatNOGS Optical
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% ASM
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% allsky
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% V4L
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@ -37,7 +37,7 @@ 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}\index{RF}\index{rotator}\index{antenna}\index{ground-station}
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\index{radio}\index{RF}\index{rotator}\index{antenna}\index{ground station}
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\end{center}
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\end{figure}
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@ -52,7 +52,7 @@ as the example in figure \ref{fig:satnogs-ground-station-web}, page \pageref{fig
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\includegraphics[keepaspectratio=true,height=0.60\textheight,width=0.60\textwidth,angle=0]{satnogs-ground-station-web.png}
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\caption{Ground station viewed on SatNOGS website, example.}
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\label{fig:satnogs-ground-station-web}
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\index{ground-station}
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\index{ground station}
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\end{center}
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\end{framed}
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\end{figure}
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@ -337,7 +337,7 @@ Tracking mount options to consider include:
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Tracking mounts aren't widely used, but there is support for them in
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\texttt{stvid} when acquiring data.
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The tracking needs to be set up independently of \texttt{stvid}.
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At present, I use Kstars with Ekos to control a Sky-Watcher tracking
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At present, I use KStars with Ekos to control a Sky-Watcher tracking
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mount.
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\index{KStars}\index{Ekos}\index{Sky-Watcher}\index{stvid}\index{track}
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@ -388,10 +388,10 @@ tracking, but for our uses all three will be included under sidereal tracking.
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To use a sidereal tracking mount for imaging satellites, the camera
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must ``leap frog'' the satellite.
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At present, my practice is to use a sidereal mount, point at a location with Kstars,
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start stvid. Then stop stvid, move to new location using Kstars,
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At present, my practice is to use a sidereal mount, point at a location with KStars,
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start stvid. Then stop stvid, move to new location using KStars,
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start stvid.
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\index{track}\index{Kstars}\index{stvid}
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\index{track}\index{KStars}\index{stvid}
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See Software section XXX for information on using tracking mounts.
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@ -29,11 +29,11 @@ images (e.g. \gls{FITS}).
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\begin{mdframed}[backgroundcolor=blue!10,linecolor=blue!30]
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\begin{itemize}
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\item Source Extractor.
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\item XXX Kstars with ekos adds \texttt{Internal SEP}.
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\item XXX Kstars with ekos adds \texttt{Builtin method for solver}.
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\item KStars with ekos adds \texttt{Internal SEP}.
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\item KStars with ekos adds \texttt{Builtin method for solver}.
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\end{itemize}
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\end{mdframed}
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\index{Source Extractor}\index{Kstars}\index{ekos}
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\index{Source Extractor}\index{KStars}\index{ekos}
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See below for a list of plate solvers that can be used.
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