- Timestamp:
- 02/16/05 17:54:51 (20 years ago)
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trunk/MagicSoft/TDAS-Extractor/MAGIC_signal_reco.tex
r6471 r6542 35 35 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 36 36 \title{Comparison of Signal Reconstruction Algorithms for the MAGIC Telescope} 37 \author{H. Bartko, O. Blanch,M. Gaug, A. Moralejo, \\37 \author{H. Bartko, M. Gaug, A. Moralejo, \\ 38 38 N. Sidro, W. Wittek} 39 39 \date{Month dd, 2004\\} … … 46 46 %% abstract %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 47 47 \begin{abstract} 48 Presently MAGIC uses a 300~MHz FADC system to sample the Cherenkov signals. 49 In this note different algorithms to reconstruct the signal from the read out samples 48 Presently, the MAGIC telescope uses a 300~MHz FADC system to sample the transmitted and shaped signals from 49 the captured Cherenkov light of air showers. 50 In this note. different algorithms to reconstruct the signal from the read out samples 50 51 are described and compared. Criteria for comparison are defined and used to judge the 51 52 different extractors applied to calibration signals, cosmics and pedestals. At the end, 52 a best extractor is proposed. The question 53 of pedestal calculation for the different extractors is adressed. 53 a digital filter fitting the signal over four FADC slices is proposed as the best extractor. 54 The question of pedestal calculation for the different extractors is adressed. The digital filter 55 is used to extract and fit single photo-electron pulses from the night sky background. 54 56 \end{abstract} 55 57 56 58 %% contents %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% 57 \thetableofcontents58 59 \newpage 60 \tableofcontents 59 61 60 62 %% body %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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