p4sat.cmd 16.2 KB
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######################################################################
#######  Exemples de commandes pour analyses des satellites ds PAON4 
#######  Analyse PAON4 , 
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######## 1ere version , R. Ansari, Novembre 2018
###   MAJ Decembre 2018 , Fev 2018
###   Voir les commandes pour l'analyse la plus recente en fin de fichier 
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######################################################################

#####################
## A/ On utilise le programme predictsatsgp4 pour generer des fichiers de traces (position en fonction du temps) 
##    pour les satellites 
#####################

###### B01 , 20 Oct 2018 
# Satellites vers 15:21 UT de B01   Galileo 41859  
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/predictsatsgp4 -T "2018/10/20 15:21:18" -H 0.,81.1 -K 41859 -S 10 -s 1,0,0,15 -p 0 TLE_20181123/galileo.txt 

# Satellites vers 23:40 UT de B01   Galileo 41550 
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/predictsatsgp4 -T "2018/10/20 23:39:59.0" -H 0.,81.1 -K 41550 -S 10 -s 1,0,0,15 -p 0 TLE_20181123/galileo.txt

###### B02 , 21 Oct 2018 
# Satellites vers 22:40 UT de B02   Galileo  40890
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/predictsatsgp4 -T "2018/10/21 22:02:0.0" -H 0.,82.1 -K 40890 -S 10 -s 1,0,0,15 -p 0 TLE_20181123/galileo.txt

###### B04 , 26 Oct 2018 
# Satellites vers 27/10/2018 00:18:00 UT de B04   
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/predictsatsgp4 -T "2018/10/27 00:18:0.0" -H 0.,78.1 -K 40889 -s 1,0,0,15 -p 0 galileo.txt


#####################
## B/ On convertit les fichiers de trace au format texte en DataTable PPF ou FITS (bin-table) avec trk2dt 
#####################

#### Converting to PPF DataTable track files
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/trk2dt trk_41859_20181020.txt trk_B01_41859.ppf
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/trk2dt trk_41550_20181020.txt trk_B01_41550.ppf
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/trk2dt trk_40890_20181021.txt trk_B02_40890.ppf
~/Work/GIT_BAORadio/AnaPAON4/Satellites/Objs/trk2dt trk_40889_20181027.txt trk_B04_40889.ppf


#####################
## C/ On calcule les visibilites PAON4 a partir des fichiers de traces format PPF 
##    a l'aide du programme JSkyMap trk2vis 
#####################
#### Computing visibility DataTable from track files
~/Work/Jiao/JSkyMap/Objs/trk2vis -paon4 -in trk_B01_41859.ppf -freq 1285 -sdec 9 -out trkvis_B01_41859.ppf
~/Work/Jiao/JSkyMap/Objs/trk2vis -paon4 -in trk_B01_41550.ppf -freq 1285 -sdec 9 -out trkvis_B01_41550.ppf
~/Work/Jiao/JSkyMap/Objs/trk2vis -paon4 -in trk_B02_40890.ppf -freq 1285 -sdec 9 -out trkvis_B02_40890.ppf
~/Work/Jiao/JSkyMap/Objs/trk2vis -paon4 -in trk_B04_40889.ppf -freq 1285 -sdec 11.9 -out trkvis_B04_40889.ppf
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########################################
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### Analyse de A21_14oct18 (et B04_26oct18  B12_6dec18 ) avec fit des parametres de geometrie (pointage) et 
### fit des phases (Dec. 2018 
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set PRGBASE = /sps/baoradio/Reza/AnaP4/AnaPAON4/
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###  A21_14oct18
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# 1/ Calcul et conversion de fichiers de traces satellites 
${PRGBASE}/Satellites/Objs/predictsatsgp4 -T "2018/10/14 23:00:00" -H 0.,78.58 -K 43057 TLE_20181123/*
${PRGBASE}/Satellites/Objs/predictsatsgp4 -T "2018/10/15 1:33:00" -H 0.,78.58 -K 43055 TLE_20181123/*
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${PRGBASE}/Satellites/Objs/trk2dt  trk_43057_20181014.txt trk_A21_43057.ppf 2018/10/14
${PRGBASE}/Satellites/Objs/trk2dt  trk_43055_20181015.txt trk_A21_43055.ppf 2018/10/14
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# 2/ Extraction de DataTable Visi[Auto,Cross]=f(time) a partir de fichiers TFM  
${PRGBASE}/Objs/tfm2dt ChezOlivier/Outputs/cor_A21_14oct18.ppf 1275,1282 dt_A21.ppf 

# 3/ Ajustement geometrie/phases sur les auto / cross 
${PRGBASE}/Objs/trkacfit -D 4.5 -sdec 10 -ckf tstA21.ppf -out A21_fac.txt dt_A21,trk_A21_43057,1358,1410,1278.5 dt_A21,trk_A21_43055,1512,1555,1278.5

# Etape utile pour faire des traces ds piapp  
~/Work/GIT_BAORadio/AnaPAON4/Objs 
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~/Work/Jiao/JSkyMap/Objs/trk2vis -paon4 -in  trk_A21_43057.ppf -freq 1278.5 -sdec 11.42 -out trkvis_A21_43057.ppf
~/Work/Jiao/JSkyMap/Objs/trk2vis -paon4 -in  trk_A21_43055.ppf -freq 1278.5 -sdec 11.42 -out trkvis_A21_43055.ppf

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##############################################
#### il est possible aussi  d'extraire le DataTable depuis cartes TFM ds piapp
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delobjs * 
openppf tfm_A21_14oct18.ppf
FREQ_MIN = 1275 
FREQ_MAX = 1282 
TIM_START = 1320
TIM_END = 1480
c++args $FREQ_MIN $FREQ_MAX $TIM_START $TIM_END 1,1,1,1
c++execfrf anasat.cc
saveppf dtvis dt_A21.ppf
savefits dtvis dt_A21.fits
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##############################################
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###  A19_12oct18  (z=-5.58 deg , CygA) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2018/10/12 18: 5:00" -H 180.,84.42 -K 43002 TLE_20181123/bei* 
${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2018/10/12 20:46:00" -H 180.,84.42 -K 40889 TLE_20181123/gal* 
${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2018/10/13  3:24:00" -H 180.,84.42 -K 43647 TLE_20181123/bei* 
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${PRGBASE}/Satellites/Objs/trk2dt  trk_43002_20181012.txt trk_A19_43002.ppf 2018/10/12
${PRGBASE}/Satellites/Objs/trk2dt  trk_40889_20181012.txt trk_A19_40889.ppf 2018/10/12
${PRGBASE}/Satellites/Objs/trk2dt  trk_43647_20181013.txt trk_A19_43647.ppf 2018/10/12
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## Bande de frequence de Beidou 
${PRGBASE}/Objs/tfm2dt ChezOlivier/Outputs/cor_A19_12oct18.ppf 1268,1275 dt_A19_B.ppf 
## Bande de frequence de Galileo  
${PRGBASE}/Objs/tfm2dt ChezOlivier/Outputs/cor_A19_12oct18.ppf 1275,1282 dt_A19_G.ppf 
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#  Fit avec satellites Beidou ne marche pas bien ! 
# ${PRGBASE}/Objs/trkacfit -D 4.5 -sdec -5 -ckf tstA19.ppf -out A19_fac.txt dt_A19_B,trk_A19_43002,1065,1105,1272 dt_A19_G,trk_A19_40889,1230,1260,1278.5 dt_A19_B,trk_A19_43647,1630,1660,1272
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#  On ne fit qu'avec le seul satellite Galileo ...
${PRGBASE}/Objs/trkacfit -D 4.5 -sdec -5 -ckf tstA19.ppf -out A19_fac.txt dt_A19_G,trk_A19_40889,1230,1260,1278.5 
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###  B04_26oct18
${PRGBASE}/Satellites/Objs/predictsatsgp4 -T "2018/10/27 00:18:00" -H 0.,78.08 -K 40889 TLE_20181123/*
${PRGBASE}/Satellites/Objs/trk2dt  trk_40889_20181027.txt trk_B04_40889.ppf 2018/10/26


###  B12_6dec18  (z=+11.92 deg) 

${PRGBASE}/Satellites/Objs/predictsatsgp4 -T "2018/12/06 19:56:00" -H 0.,79.08 -K 43055 TLE_20181206/gal*
${PRGBASE}/Satellites/Objs/predictsatsgp4 -T "2018/12/07 4:18:00" -H 0.,79.08 -K 37847 TLE_20181206/gal*
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${PRGBASE}/Satellites/Objs/trk2dt  trk_43055_20181206.txt trk_B12_43055.ppf 2018/12/06
${PRGBASE}/Satellites/Objs/trk2dt  trk_37847_20181207.txt trk_B12_37847.ppf 2018/12/06
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${PRGBASE}/Objs/tfm2dt ChezOlivier/Outputs/cor_B12_6dec18.ppf 1275,1282 dt_B12.ppf 
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## Ajustement 
${PRGBASE}/Objs/trkacfit -D 4.5 -sdec 10 -ckf tstB12.ppf -out B12_fac.txt dt_B12,trk_B12_43055,1178,1215,1278.5 dt_B12,trk_B12_37847,1665,1695,1278.5
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##################################################################################################
##### Fevrier 2019 ################
### Analyse acquisition longue duree Janv 2019 , a partir du fichier LD_goodsat.txt d'Olivier
##################################################################################################

### AU CC-IN2P3 : se mettre ds /sps/baoradio/Reza/AnaP4/SatLD14jan19
source /pbs/throng/baoradio/Library/Sophya/env.csh  
cd /sps/baoradio/Reza/AnaP4/SatLD14jan19
set PRGBASE = /sps/baoradio/Reza/AnaP4/AnaPAON4 

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### Pour compiler le code au CC
cd $PRGBASE
git pull
make
## Pour compiler avec MINUIT
setenv MINUITDIR /pbs/throng/baoradio/Library/ExtLibs/pro/
make mn_trkacxfit
########################
cd /sps/baoradio/Reza/AnaP4/SatLD14jan19
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##  Extraction du signal pour les satellites entre 1275-1282 MHz (Galileo) 
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${PRGBASE}/Objs/tfm2dt ChezOlivier/LDOutputs/cor2_LD14jan19.ppf  1275,1282 dt_LD14jan19.ppf
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##  Extraction du signal pour les satellites entre 1270-1274 MHz (GPS)   raie fine a 1272 MHz 
${PRGBASE}/Objs/tfm2dt ChezOlivier/LDOutputs/cor2_LD14jan19.ppf  1270,1274 dt1272_LD14jan19.ppf
##  Extraction du signal pour les satellites entre 1318-1328 MHz (GPS et Galileo faible intensite mais au milieu de la bande de frequence) 
${PRGBASE}/Objs/tfm2dt ChezOlivier/LDOutputs/cor2_LD14jan19.ppf  1318,1328 dt1323_LD14jan19.ppf
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## Temps en minutes 1115,1160    (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/14 18:56:00" -H 0.,79.08 -K 40889 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_40889_20190114.txt trk_40889_20190114.ppf 2019/01/14

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## Temps en minutes 1460,1500    (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/15 0:43:00" -H 0.,79.08 -K 43566 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_43566_20190115.txt trk_43566_20190115.ppf 2019/01/14

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## Temps en minutes 2455,2495    (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/15 17:16:00" -H 0.,79.08 -K 43055 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_43055_20190115.txt trk_43055_20190115.ppf 2019/01/14

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## Temps en minutes 4130,4175    (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/16 21:15:00" -H 180.,83.35 -K 43057 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_43057_20190116.txt trk_43057_20190116.ppf 2019/01/14

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## Temps en minutes 6120,6160     (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/18 6:20:00" -H 180.,83.35 -K 41175 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_41175_20190118.txt trk_41175_20190118.ppf 2019/01/14

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## Temps en minutes  7200+1315,+1355 : 8515,8555    (Galileo) 
${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/19 22:13:00" -H 180.,64.67 -K 43055 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_43055_20190119.txt trk_43055_20190119.ppf 2019/01/14

## Temps en minutes  7200+1315,+1355 : 8585,8625     (GPS) 
${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/19 23:26:00" -H 180.,64.67 -K 40534 TLE_20190125/gps*
${PRGBASE}/Satellites/Objs/trk2dt trk_40534_20190119.txt trk_40534_20190119.ppf 2019/01/14

## Temps en minutes  8640+365,+405 :  9005,9045      (GPS) 
${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/20 6:26:00" -H 180.,64.67 -K 28361 TLE_20190125/gps*
${PRGBASE}/Satellites/Objs/trk2dt trk_28361_20190120.txt trk_28361_20190120.ppf 2019/01/14

## Temps en minutes 11520+720,+760 : 12240,12280    (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/22 12:20:00" -H 180.,55 -K 40890 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_40890_20190122.txt trk_40890_20190122.ppf 2019/01/14

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## Temps en minutes 11520+850,+890 : 12370,12410     (Galileo) 
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${PRGBASE}/Satellites/Objs/predictsatsgp4  -T "2019/01/22 14:35:00" -H 180.,55 -K 41859 TLE_20190125/gal*
${PRGBASE}/Satellites/Objs/trk2dt trk_41859_20190122.txt trk_41859_20190122.ppf 2019/01/14

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##  Extraction du signal pour les sources du ciel  entre 1342-1350 MHz -> FreqCentral=1346 MHz
${PRGBASE}/Objs/tfm2dt ../ChezOlivier/LDOutputs/cor2_LD14jan19.ppf  1342,1350 dtsky1346_LD14jan19.ppf
##  Extraction du signal pour les sources du ciel  entre 1392-1400 MHz -> FreqCentral=1396 MHz
${PRGBASE}/Objs/tfm2dt ../ChezOlivier/LDOutputs/cor2_LD14jan19.ppf  1392,1400 dtsky1396_LD14jan19.ppf
##  Extraction du signal pour les sources du ciel  entre 1410-1418 MHz -> FreqCentral=1416 MHz
${PRGBASE}/Objs/tfm2dt ../ChezOlivier/LDOutputs/cor2_LD14jan19.ppf  1410,1418 dtsky1416_LD14jan19.ppf
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#### Fabrication des DataTables track a partir des fichiers texte fourni par JEC
foreach f ( CasA_survey_2019-1-14 CasA_survey_2019-1-15 CasA_survey_2019-1-16 CygA_survey_2019-1-17 CygA_survey_2019-1-18 )
  ${PRGBASE}/Satellites/Objs/trk2dt $f.txt $f.ppf 2019/01/14
end
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foreach f ( M1_survey_2019-1-19 M1_survey_2019-1-20 M87_survey_2019-1-21 M87_survey_2019-1-22 M87_survey_2019-1-23 )
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  ${PRGBASE}/Satellites/Objs/trk2dt $f.txt $f.ppf 2019/01/14
end

#####   Intervalle de temps de transit (en minutes, since 14/01/2019 0h00)
  CasA_survey_2019-1-14 : 920,960
  CasA_survey_2019-1-15 : 2355,2395
  CasA_survey_2019-1-16 : 3790,3830
  CygA_survey_2019-1-17 : 5025,5065
  CygA_survey_2019-1-18 : 6460,6500
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  M1_survey_2019-1-19   : 8460,8560
  M1_survey_2019-1-20   : 9895,9955
  M87_survey_2019-1-21  : 10310,10370
  M87_survey_2019-1-22  : 11745,11805 
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#####
 
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#########################
####### Fichiers .d : Tracks-list  
#### ldtrk_casA.d
--- Observation Longue duree Janvier 2019 
Sources avec observation vers CasA  (z=+11.42)
@zenang 10 
@trk  dt_LD14jan19  1115,1160  1278.5  trk_40889_20190114
@trk  dt_LD14jan19  1460,1500  1278.5  trk_43566_20190115
@trk  dt_LD14jan19  2455,2495  1278.5  trk_43055_20190115
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# Sky at 1346 MHz 
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@trk  dtsky1346_LD14jan19  920,960    1346  CasA_survey_2019-1-14  NOAC 
@trk  dtsky1346_LD14jan19  2355,2395  1346  CasA_survey_2019-1-15  NOAC 
@trk  dtsky1346_LD14jan19  3790,3830  1346  CasA_survey_2019-1-16  NOAC 
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# Sky at 1396 MHz 
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@trk  dtsky1396_LD14jan19  920,960    1396  CasA_survey_2019-1-14  NOAC 
@trk  dtsky1396_LD14jan19  2355,2395  1396  CasA_survey_2019-1-15  NOAC 
@trk  dtsky1396_LD14jan19  3790,3830  1396  CasA_survey_2019-1-16  NOAC 
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# Sky at 1416 MHz 
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@trk  dtsky1416_LD14jan19  920,960    1416  CasA_survey_2019-1-14  NOAC 
@trk  dtsky1416_LD14jan19  2355,2395  1416  CasA_survey_2019-1-15  NOAC 
@trk  dtsky1416_LD14jan19  3790,3830  1416  CasA_survey_2019-1-16  NOAC 
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#### ldtrk_cygA.d
--- Observation Longue duree Janvier 2019 
Sources avec observation vers CygA  (z=-6.5)
@zenang -6.
@trk  dt_LD14jan19  4130,4175  1278.5  trk_43057_20190116
@trk  dt_LD14jan19  6120,6160  1278.5  trk_41175_20190118
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# Sky at 1346 MHz 
@trk  dtsky1346_LD14jan19  5025,5065  1346  CygA_survey_2019-1-17  NOAC 
@trk  dtsky1346_LD14jan19  6460,6500  1346  CygA_survey_2019-1-18  NOAC 
# Sky at 1396 MHz 
@trk  dtsky1396_LD14jan19  5025,5065  1396  CygA_survey_2019-1-17  NOAC 
@trk  dtsky1396_LD14jan19  6460,6500  1396  CygA_survey_2019-1-18  NOAC 
# Sky at 1416 MHz 
@trk  dtsky1416_LD14jan19  5025,5065  1416  CygA_survey_2019-1-17  NOAC 
@trk  dtsky1416_LD14jan19  6460,6500  1416  CygA_survey_2019-1-18  NOAC 
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#### ldtrk_crab.d
--- Observation Longue duree Janvier 2019 
Sources avec observation vers Crabe  (z=-25)
@zenang -25 
@trk  dt_LD14jan19  8515,8555    1278.5  trk_43055_20190119
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@trk  dt1262_LD14jan19  8585,8625  1262  trk_40534_20190119   NOCX
trk  dt1323_LD14jan19  8585,8625  1323  trk_40534_20190119   NOAC 
trk  dt1262_LD14jan19  9005,9045  1262  trk_28361_20190120
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# Sky at 1346 MHz 
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@trk  dtsky1346_LD14jan19  8460,8520  1346  M1_survey_2019-1-19  NOAC 
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@trk  dtsky1346_LD14jan19  9895,9955  1346  M1_survey_2019-1-20  NOAC 
# Sky at 1396 MHz 
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@trk  dtsky1396_LD14jan19  8460,8520  1396  M1_survey_2019-1-19  NOAC 
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@trk  dtsky1396_LD14jan19  9895,9955  1396  M1_survey_2019-1-20  NOAC 
# Sky at 1416 MHz 
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@trk  dtsky1416_LD14jan19  8460,8520  1416  M1_survey_2019-1-19  NOAC 
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@trk  dtsky1416_LD14jan19  9895,9955  1416  M1_survey_2019-1-20  NOAC 


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#### ldtrk_virA.d
--- Observation Longue duree Janvier 2019 
Sources avec observation vers VirgoA  (z=-35)
@zenang -35 
@trk  dt_LD14jan19  12240,12280  1278.5  trk_40890_20190122
@trk  dt_LD14jan19  12370,12410  1278.5  trk_41859_20190122
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# Sky at 1346 MHz 
@trk  dtsky1346_LD14jan19  10310,10370  1346  M87_survey_2019-1-21  NOAC 
@trk  dtsky1346_LD14jan19  11745,11805  1346  M87_survey_2019-1-22  NOAC 
# Sky at 1396 MHz 
@trk  dtsky1396_LD14jan19  10310,10370  1396  M87_survey_2019-1-21  NOAC 
@trk  dtsky1396_LD14jan19  11745,11805  1396  M87_survey_2019-1-22  NOAC 
# Sky at 1416 MHz 
@trk  dtsky1416_LD14jan19  10310,10370  1416  M87_survey_2019-1-21  NOAC 
@trk  dtsky1416_LD14jan19  11745,11805  1416  M87_survey_2019-1-22  NOAC 
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##### Exemple d'execution de commandes
${PRGBASE}/Objs/trkacxfit -docx6s -docx6f -D 4.5 -out ldj.txt -ckf ldj.ppf ldtrk_casA.d ldtrk_cygA.d ldtrk_virA.d
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#  Ou
${PRGBASE}/Objs/trkacxfit -docx6s -docx6f -D 4.5 -out casA.txt -ckf casA.ppf ldtrk_casA.d 

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set nom = casA
${PRGBASE}/Objs/trkacxfit -nocxf -D 4.5 -out ${nom}.txt -ckf ${nom}.ppf ldtrk_${nom}.d 
${PRGBASE}/Objs/trkacxfit  -D 4.5-out ${nom}.txt -ckf ${nom}.ppf lds_${nom}.d 
rm *_${nom}.txt *_${nom}.ppf 

${PRGBASE}/Objs/trkacxfit -phifreq -D 4.5 -out ${nom}.txt -ckf ${nom}.ppf ldtrk_${nom}.d 
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#### Pour traiter les 4 directions 
set nomo = alltarg
set nom1 = casA
set nom2 = cygA
set nom3 = crab
set nom4 = virA
time ${PRGBASE}/Objs/trkacxfit -D 4.5 -zshift 0,-10,5,-2 -phifreq -docx6f -fixbxy -odp ./ -inp ./ -out ${nomo}.txt -ckf ${nomo}.ppf ldtrk_${nom1}.d ldtrk_${nom2}.d ldtrk_${nom3}.d ldtrk_${nom4}.d
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#### Utiliser le script piapp : ckfitres.pic  et les scripts definis dedans pour verifier les resultats
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piapp> set nom casA
piapp> exec ckfitres.pic cxb6_${nom}.ppf
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piapp> ck6 1 1
piapp> ck6 1 2
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piapp> ckacx $nom 1 3
piapp> ckacx $nom 1 3
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Reza ANSARI committed
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### Utiliser le script pltsattrack.pic pour le trace des traces des satellites