Difference between revisions of "KSW"
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===at_Kuffner=== | ===at_Kuffner=== | ||
− | ===Calibration for Mark2.3l, Data: aug. 28th/29th=== | + | ===Calibration for Mark2.3l, Data: aug. 28th/29th 2011=== |
[[File:Kali_KSW.png|thumb|calibrated: sept. 1st, 2011]] | [[File:Kali_KSW.png|thumb|calibrated: sept. 1st, 2011]] | ||
In [4]: x=lies_Verzeichnis('/home/lightmeter1/Desktop/LIGHT/atkuffner2011-08-30/', Datenschritt=3, Format="Lightrouter"); | In [4]: x=lies_Verzeichnis('/home/lightmeter1/Desktop/LIGHT/atkuffner2011-08-30/', Datenschritt=3, Format="Lightrouter"); |
Revision as of 13:30, 27 May 2016
Contents
- 1 Lightmeters at the Kuffner-Observatory, Vienna
- 1.1 Kuffner-Sternwarte, Lightmeter Nord Northern Lightmeter
- 1.2 Kuffner-Sternwarte, Lightmeter Süd, Southern Lightmeter
- 1.3 Daten Schnellansicht der letzten Woche
- 1.4 Kalibrationen
- 1.5 L6 on mast N of dome
- 1.6 Lightmeter L6, Quantenbox (unitl April 30th 2009)
- 1.7 L5
- 1.8 L6, Weather-mast, roof of Vertical circle, N of refractor dome (since May 1st 2009)
- 2 Measurement of straylight, Mon, Dec 29th 2009
- 3 Kugelleuchte bei Ottakringer Bad, Dez. 2011
- 4 Abblendung der Leuchte im N der Kuppel (4.1.2012)
- 5 Weather
Lightmeters at the Kuffner-Observatory, Vienna
Kuffner-Sternwarte, Lightmeter Nord Northern Lightmeter
Station: at_kuffner1 Sensor: S/N 918021 , Mark 2.3l Location: on mast N of refractor dome Installed 2011-06-01 at KSW mast N of dome on roof of Vertikalkreis (Sensor-upgrade to Mark 2.3l S/N 021);
Zweiter Standort der Kuffner-Lightmeter nach Tests auf dem Ost-Dach, "Quantenbox";
Kuffner-Sternwarte, Lightmeter Süd, Southern Lightmeter
Station: at_kuffner2 Sensor: S/N 918033 , Mark 2.3l Location: On top of the south roof (Lesereaum, Vestibül, Nähstube) Installed: May 2014, new mount: autumn 2015; 2016-05-26
Daten Schnellansicht der letzten Woche
Find last week's data at http://www.lightdata.at.vu
Kalibrationen
at_Kuffner
Calibration for Mark2.3l, Data: aug. 28th/29th 2011
In [4]: x=lies_Verzeichnis('/home/lightmeter1/Desktop/LIGHT/atkuffner2011-08-30/', Datenschritt=3, Format="Lightrouter"); In [5]: x.Observer.elev=280; x.Observer.lat="48:12:46.13"; x.Observer.long="16:17:28.75"; # kuffner In [6]: x.plot_NatLight(); x.plot_Mond_GR_Lux_h_extinction() In [8]: ssh1=(x.Sunheight_deg_from_JD(x.JD)>30)|((x.Sunheight_deg_from_JD(x.JD)<0)&(x.Sunheight_deg_from_JD(x.JD)>-18)) In [9]: sjd1=(x.JD>mx.DateTime.DateTime(2011,8,29,0,0,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,5,0,0).jdn) In [10]: sjd2=(x.JD>mx.DateTime.DateTime(2011,8,29,7,45,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,8,54,0).jdn) In [16]: sjd3=(x.JD>mx.DateTime.DateTime(2011,8,28,14,0,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,28,18,43,0).jdn) In [21]: snd1=(x.JD>mx.DateTime.DateTime(2011,8,29,7,42,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,7,46,0).jdn) In [38]: SELECT=(sjd1|sjd2|sjd3)&ssh1&(~(snd1)) In [39]: x.fit_em1_to_natLight(JD_select=SELECT, Lux_range=[0.00001,300000]); Fit: a,b,c,x0,d,: 1.957e+05,1.872e-03,1.158e-06,-5.949e-03,5.579e-03, (res2/(N-n-1))^1/2 = 0.0759 ,N=5791,n= 5 In [40]: a,b,c,x0,d= 1.957e+05,1.872e-03,1.158e-06,-5.949e-03,5.579e-03 In [48]: x.plot_Sunlight_Watt_per_square_meter_from_JD_DM(surface_pressure=978.0, T_dew_C=15.0, factor=110.8, c='c', marker=',' , linestyle=':') In [49]: legend(prop=matplotlib.font_manager.FontProperties(size='small'),loc='center left') In [50]: x.set_simple_time_axis_format()
a , b , c , x0 , d = 1.957e+05 , 1.872e-03 , 1.158e-06 , -5.949e-03 , 5.579e-03
--Nero2401 22:09, 1. Sep. 2011 (UTC)
Kal 2012-12-28
In [7]: x=lies_Verzeichnis('/home/nero2401/at_kuffner_kali/', Datenschritt=1, Format="Lightrouter") In [13]: x.Observer.elev=280; x.Observer.lat="48:12:46.13"; x.Observer.long="16:17:28.75"; # KSW In [14]: x.Berechne_Sonne();x.Berechne_Mond();x.plot_NatLight() In [91]: syd1=(x.JD>mx.DateTime.DateTime(2012,8,20,2,35,0).jdn) & (x.JD<mx.DateTime.DateTime(2012,8,20,8,30,0).jdn) In [92]: syd2=(x.JD>mx.DateTime.DateTime(2012,8,19,15,20,0).jdn) & (x.JD<mx.DateTime.DateTime(2012,8,19,19,0,0).jdn) In [93]: syd3=(x.JD>mx.DateTime.DateTime(2012,8,20,14,5,0).jdn) & (x.JD<mx.DateTime.DateTime(2012,8,20,16,0,0).jdn) In [95]: SELECT=(syd1|syd2|syd3)&ssh1 In [96]: x.fit_em1_to_natLight(JD_select=SELECT, Lux_range=[0.001,300000]); Fit: a,b,c,x0,d,: 1.962e+05,3.975e-03,8.164e-07,-6.681e-03,5.068e-03, (res2/(N-n-1))^1/2 = 0.105 ,N=15580,n= 5 In [103]: a,b,c,x0,d= 1.962e+05,3.975e-03,8.164e-07,-6.681e-03,5.068e-03 In [104]: execfile("FL_draw_all_plots.py") In [106]: x.plot_Sunlight_Watt_per_square_meter_from_JD_DM(surface_pressure=1019.0, T_dew_C=15.0, factor=110.9, c='c', marker=',' , linestyle=':')
zusammenfassung:
kalibration vom 28.12.2012 daten von august 2012 (res2/(N-n-1))^1/2 = 0.105
a,b,c,x0,d= 1.962e+05,3.975e-03,8.164e-07,-6.681e-03,5.068e-03 factor=110.9
... von nero; --GuentherWuchterl 17:28, 29. Dez. 2012 (UTC)
L6 on mast N of dome
2009-05-01 - 2011-05-30
Lightmeter L6, Quantenbox (unitl April 30th 2009)
bis 30 April 2009: "Quantenkasten" im Osten des KSW-Rungangs)
L5
Apr 09: 1.62e-06*L5-cnts + 4.61e-02
L6, Weather-mast, roof of Vertical circle, N of refractor dome (since May 1st 2009)
KSW 11.4
Voltcraft; 7.15e-07 Lux/Ampere +/- 5.5e-08 n=26 0.2 bis 0.02 lx; 11. April 09
Measurement of straylight, Mon, Dec 29th 2009
Test of the effect of a light to illuminate an appartment building N of the observatory. The light is of mushrom type with uplight illuminating part of the refractor dome that is reflected back onto the sensor. The light shines through the leaveless trees during the winter.
Measurments of the effect by shielding the light with a white A1-poster (on/off).
Results: on/off difference
All measurments: 1.3 +/- 0.7 mlx (Median 1mlx);
Sensor in Moon-shadow: 0.6 +/- 0.14 mlx;
Sensor in Moonlight: 1.8 +/- 0.4 mlx;
--GuentherWuchterl 20:59, 29. Dez. 2009 (UTC)
Datum Zeit Lux 28. Dez. 2009 21:07:00 0.0252 28. Dez. 2009 21:09:25 0.0256 -0.0004 0.0004 28. Dez. 2009 21:07:00 0.0249 0.0007 0.0007 28. Dez. 2009 21:09:30 0.0256 -0.0007 0.0007 28. Dez. 2009 21:11:11 0.0249 0.0007 0.0007 28. Dez. 2009 21:13:13 0.0254 -0.0005 0.0005 28. Dez. 2009 21:15:00 0.0247 0.0007 0.0007 28. Dez. 2009 21:16:00 0.0251 -0.0004 0.0004 28. Dez. 2009 21:18:00 0.0246 0.0005 0.0005 28. Dez. 2009 21:07:00 0.0392 28. Dez. 2009 21:07:00 0.0373 0.0019 0.0019 28. Dez. 2009 21:07:00 0.0256 28. Dez. 2009 21:35:00 0.1210 28. Dez. 2009 21:35:04 0.1230 -0.0020 0.0020 28. Dez. 2009 21:35:25 0.1220 0.0010 0.0010 28. Dez. 2009 21:35:45 0.1240 -0.0020 0.0020 28. Dez. 2009 21:36:03 0.1230 0.0010 0.0010 28. Dez. 2009 21:36:24 0.1250 -0.0020 0.0020 28. Dez. 2009 21:36:44 0.1230 0.0020 0.0020 28. Dez. 2009 21:37:07 0.1250 -0.0020 0.0020 28. Dez. 2009 21:37:24 0.1230 0.0020 0.0020 28. Dez. 2009 21:37:46 0.1250 -0.0020 0.0020 0.0013 Mittel 0.00070 0.0010
Kugelleuchte bei Ottakringer Bad, Dez. 2011
Nach Gesprächen (GW) wird die Kugelleuchte in den Innenraum des Bades versetzt (5.1)
Abblendung der Leuchte im N der Kuppel (4.1.2012)
Abblendung der Leuchte in Richtung auf die Sternwarte (Durchführung W.W.) am 4.1.2012. Damit sollte der Hintergrund für die Messungen im N um 1.3 +/- 0.7 mlx reduziert werden (sie oben).
Weather
Wetterstation Kuffner-Sternwarte: http://ksw.astronomie-wien.at/