- Timestamp:
- 02/12/05 18:54:32 (20 years ago)
- Location:
- trunk/MagicSoft/TDAS-Extractor
- Files:
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- 2 edited
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trunk/MagicSoft/TDAS-Extractor/Algorithms.tex
r6402 r6415 854 854 \item[MExtractTimeAndChargeDigitalFilterPeakSearch]: with the following initialization: 855 855 \resume{enumerate} 856 \item SetWeightsFile(``calibration\_weights \_UV.dat''); SetRange(0,20,0,14); \\856 \item SetWeightsFile(``calibration\_weights4\_UV.dat''); SetRange(0,20,0,14); \\ 857 857 SetOffsetLeftFromPeak(3); SetOffsetRightFromPeak(3); \\ 858 858 SetPeakSearchWindowSize(2); -
trunk/MagicSoft/TDAS-Extractor/Calibration.tex
r6410 r6415 1 \section{Calibration \label{sec:calibration}} 1 2 2 3 3 In this section, we describe the tests performed using light pulses of different colour, … … 81 81 82 82 We used data taken on the 7$^{th}$ of June, 2004 with different pulser LED combinations, each taken with 83 16384 events. The corresponding MAGIC data run numbers range from nr. 31741 to 31772. These data was taken 83 16384 events. 19 different calibration configurations have been tested. 84 The corresponding MAGIC data run numbers range from nr. 31741 to 31772. These data was taken 84 85 before the latest camera repair access which resulted in a replacement of about 2\% of the pixels known to be 85 86 mal-functionning at that time. … … 128 129 Moreover, the number of events are counted which have been reconstructed outside a 5 sigma region 129 130 from the mean signal. These events are called ``outliers''. Figure~\ref{fig:outlier} shows a typical 130 outlier obtained with the digital filter applied to a low-gain signal. 131 outlier obtained with the digital filter applied to a low-gain signal and figure~\ref{fig:unsuited:all} 132 shows the average number of all excluded pixels and outliers obtained from all 19 calibration configurations. 133 One can already see that the largest window sizes yield a high number of un-calibrated pixels, mostly 134 due to the missing ability to recognize the low-intensity pulses (see later). One can also see that 135 the amplitude extracting spline yields a higher number of outliers than the rest of the extractors. 136 The global champion in lowest number of un-calibrated pixels results to be 137 {\textit{\bf MExtractTimeAndChargeDigitalFilter}} with the correct calibration weights over 4 FADC slices 138 (extractor \#31). The one with the lowest number of outliers is 139 {\textit{\bf MExtractFixedWindowPeakSearch}} with an extraction range of 2 slices (extractor \#11). 131 140 132 141 \begin{figure}[htp] … … 140 149 \end{figure} 141 150 151 \begin{figure}[htp] 152 \centering 153 \includegraphics[height=0.75\textheight]{UnsuitVsExtractor-all.eps} 154 \caption{Uncalibrated pixels and pixels outside of the Gaussian distribution averaged over all available 155 calibration runs.} 156 \label{fig:unsuited:all} 157 \end{figure} 158 142 159 The following figures~\ref{fig:unsuited:5ledsuv},~\ref{fig:unsuited:1leduv},~\ref{fig:unsuited:2ledsgreen} 143 160 and~\ref{fig:unsuited:23ledsblue} show the resulting numbers of un-calibrated pixels and events for … … 183 200 of the inner pixels (fig.~\ref{fig:unsuited:1leduv}). This is an expected behavior since big windows 184 201 add up more noise which in turn makes the search for the small signal more difficult. 185 \par186 \ldots {\bf WHICH EXTRACTOR HAS THE LEAST NUMBER OF EXCLUDED PIXELS ???}187 202 \par 188 203 In general, one can also find that all ``sliding window''-algorithms (extractors \#17-32) discard
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