Difference between revisions of "Stationsseite Lebensministerium"
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Revision as of 12:50, 13 April 2016
Contents
Metadata
Koordinaten:
48° 12' 33,35" N
16° 22' 54,32" O
209 m Höhe
Sensor:
Mark 2.3L, S/N ....028
Liefert Daten seit dem 9. Aug. 2011. ; validiert --GuentherWuchterl 19:35, 30. Aug. 2011 (UTC)
--Nero2401 19:36, 30. Aug. 2011 (UTC)
Messdaten
Nahezu-Echtzeit-Daten finden sich auf http://www.lightdata.at.vu
AT_LebMin_2 - Lightrouter, Mark 2.3l
Station: AT_LebMin Sensor ID: 918028 ab 8. August 2011
Kontrolle 8. April 2016
FL+GW; Sensor kontrolliert; gesäubert; Foto vorher/nachher; Panorama; Belagprobe archiviert;
Netzverbinung hergestellt; (UMTS-Verbindung war wieder aus); Versuch Dunkelstrom zu messen scheitert an schlechter Abdeckung (Stange, Blitzableiter und Kabel das horizontal wegführt); Abdeckung die Kabel und Blitzableiter ausnimmt erforderlich.
Minimum der erreichten counts etwa 3400, aber eindeutig noch Lichtsignal; In jedem Fall irrelevant da typische niedrige Nachtwerte bei 30 000 counts liegen.
--GW (talk) 12:10, 12 April 2016 (CEST)
Kontrolle 22. Jan. 2016
Die Daten von 2015 sind komplett und auch alles seit Anfang 2016.
Der LightRouter ist gelaufen und hat aufgezeichnet. Nur der UMTS-WLAN Router war auf "Standby". Router aus, Daten kopiert, 2014 und 2015 auf dem Router gelöscht damit er nicht voll wird.
UMTS-Router Einschalten; Warten auf WLAN; Router Starten; Heartbeat; alles scheint OK.
Zeitsynchronisierung führt zu ca 2 Tage Sprung: auf 14:20 folgt 12:10
Der "Ausfall" vom 15. August war nur ein Verbindungsverlust. Daten wurden weiter gewonnen.
--GW (talk) 22:51, 23 February 2016 (CET)
15. August 2015 - Ausfall. Vermutlich Speicher voll oder UMTS Kontingent zu erneuern!
Kalibration 28./29. August
Kalibration Lebensministerium neue Station.
Log:
In [4]: x=lies_Verzeichnis('/home/lightmeter1/Desktop/LIGHT/atlebmin2011-08-30/selected/', Datenschritt=3, Format="Lightrouter"); In [5]: x.Observer.elev=209; x.Observer.lat="48:12:33.35"; x.Observer.long="16:22:54.32"; # LEBmin In [6]: x.plot_NatLight(); x.plot_Mond_GR_Lux_h_extinction() In [63]: 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 [64]: sjd6=(x.JD>mx.DateTime.DateTime(2011,8,28,14,7,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,28,16,43,0).jdn) In [65]: sjd5=(x.JD>mx.DateTime.DateTime(2011,8,28,18,11,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,28,18,30,0).jdn) In [66]: sjd4=(x.JD>mx.DateTime.DateTime(2011,8,28,7,57,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,28,9,21,0).jdn) In [68]: sjd2=(x.JD>mx.DateTime.DateTime(2011,8,29,5,19,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,5,59,0).jdn) In [69]: sjd1=(x.JD>mx.DateTime.DateTime(2011,8,29,7,13,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,7,46,0).jdn) In [70]: sjd7=(x.JD>mx.DateTime.DateTime(2011,8,29,8,07,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,8,30,0).jdn) In [71]: sjd8=(x.JD>mx.DateTime.DateTime(2011,8,29,10,39,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,11,10,0).jdn) In [86]: sjd3=(x.JD>mx.DateTime.DateTime(2011,8,29,2,40,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,8,29,3,20,0).jdn) In [87]: SELECT=(sjd1|sjd2|sjd3|sjd4|sjd5|sjd6|sjd7|sjd8)&ssh1 In [88]: x.fit_em1_to_natLight(JD_select=SELECT, Lux_range=[0.001,300000]); Fit: a,b,c,x0,d,: 2.501e+05,3.681e-03,3.637e-06,-1.094e-02,4.075e-03, (res2/(N-n-1))^1/2 = 0.078 ,N=5138,n= 5 In [89]: a,b,c,x0,d= 2.501e+05,3.681e-03,3.637e-06,-1.094e-02,4.075e-03 In [90]: execfile("draw_all_plots.py") In [91]: x.plot_Sunlight_Watt_per_square_meter_from_JD_DM(surface_pressure=991.0, T_dew_C=15.0, factor=110.9, c='c', marker=',' , linestyle=':') In [92]: legend(prop=matplotlib.font_manager.FontProperties(size='small'),loc='center left') In [93]: x.set_simple_time_axis_format()
a , b , c , x0 , d = 2.501e+05 , 3.681e-03 , 3.637e-06 , -1.094e-02 , 4.075e-03
--Nero2401 22:01, 1. Sep. 2011 (UTC)
22.August Abenddämmerung
In [128]: SJD1=(X.JD > mx.DateTime.DateTime(2011,8,22,14,0,0).jdn) & (X.JD < mx.DateTime.DateTime (2011,8,24,19,10,0).jdn) In [129]: SSH=(X.Sunheight_deg_from_JD(X.JD)>30)|((X.Sunheight_deg_from_JD(X.JD)<-4)&(X.Sunheight_deg_from_JD(X.JD)>-18)) In [130]: SJD=(SJD1)&SSH In [131]: X.fit_em1_to_natLight(JD_select=SJD, Lux_range=[0.01,300000],type='em1c0T') Fit: a,b,c,x0,d,: 2.630e+05,2.307e-03,5.728e-06,-5.280e-02,5.248e-03, (res2/(N-n-1))^1/2 = 0.0529 ,N=5900,n= 5 Out[131]: (array([ 2.63024701e+05, 2.30669604e-03, 5.72755715e-06, -5.27981786e-02, 5.24831315e-03]), 1) In [132]: clf() In [133]: a,b,c,x0,d=2.630e+05,2.307e-03,5.728e-06,-5.280e-02,5.248e-03 In [134]: X.plot_em1c0T(a,b,c,x0,d,marker=',',color='g') In [135]: X.plot_em1T(a,b,c,d,marker=',',color='k') In [136]: X.plot_em1c0T(a,b,c,x0,d,marker=',',color='r', JD_select=SJD) In [137]: X.plot_NatLight(); X.plot_Mond_GR_Lux_h_extinction() In [138]: X.plot_em1T(a,b,c,d,marker=',',color='k')
AT_Lebensministerium_1, Mark 2.3
Sensor ID: 908065
... bis 2011-08-07
Bei Auswertung zu Beachten
In der Nacht von 26. -> 27. März '11 erfolgt die Sommerzeitumstellung. Davor: timezone=1, danach timezone=2.
Kalibration Ende April '11
Kalibration April
Log:
a,b,c,x0,d = 1.206e+05,3.493e-02,1.393e-07,-1.164e-02,5.056e-03# Lebensmini cal April 2011, a,b,c,x0,d = 1.206e+05,3.493e-02,1.2898e-09,-1.164e-02,5.056e-03# Lebensmini cal April 2011, f=108
==> beste und mondschwach , Mittagsvariation minimiert
SJD1=(X.JD > mx.DateTime.DateTime(2011,4,22,0,0).jdn) & (X.JD < mx.DateTime.DateTime(2011,4,24,0,00).jdn) SSH=(X.Sunheight_deg_from_JD(X.JD)>35)|((X.Sunheight_deg_from_JD(X.JD)<0)&(X.Sunheight_deg_from_JD(X.JD)>-18)) SJD=(SJD1)&SSH X.fit_em1_to_natLight(JD_select=SJD, Lux_range=[0.01,300000],type='em1c0T',time_correction_seconds=0)
a,b,c,x0,d,: 1.206e+05,3.493e-02,1.393e-07,-1.164e-02,5.056e-03, (res2/(N-n-1))^1/2 = 0.107 ,N=67186,n= 5
X.plot_Sunlight_Watt_per_square_meter_from_JD_DM(surface_pressure=1013.0,T_dew_C=4.0,factor=110,c='c',marker=',',linestyle=':')
Wetterquelle: Weather underground 1030 Wien http://www.wunderground.com/weatherstation/WXDailyHistory.asp?ID=IWIENWIE4&month=4&day=23&year=2011
a,b,c,x0,d = 1.206e+05,3.493e-02,1.393e-07,-1.164e-02,5.056e-03# Lebensmini cal April 2011, a,b,c,x0,d = 1.206e+05,3.493e-02,1.2898e-09,-1.164e-02,5.056e-03# Lebensmini cal April 2011, f=108
Halbschaltung (bei den perfekten Kal-Beindungen): 1.-0.024/0.026 Out[53]: 0.0769
Log:
import os os.chdir('/home/ke/Desktop/GW/Licht/python') from Luxmeterdaten import * import mx.DateTime
X=Luxmeterdaten('/home/ke/Desktop/GW/Licht/WienKartierung/Monitor Netz/L0xx_Lebensministerium/AT_VIENNA_1_2011_03_17_15_06.csv' ,timezone=1, Datenschritt=1) X.Observer.long=" 16:22:54.12"; X.Observer.lat=" 48:12:33.72"; X.Observer.elev=209 # Lebensministerium X.Berechne_Sonne(); X.Berechne_Mond(); a,b,c,x0,d = 1.206e+05,3.493e-02,1.393e-07,-1.164e-02,5.056e-03# Lebensmini cal April 2011, (res2/(N-n-1))^1/2 = 0.107 ,N=67186,n= 5 a,b,c,x0,d = 1.206e+05,3.493e-02,1.2898e-09,-1.164e-02,5.056e-03# Lebensmini W/m2 cal April 2011, f=108 Schön und wenig Monschein SJD1=(X.JD > mx.DateTime.DateTime(2011,4,20,3,30).jdn) & (X.JD < mx.DateTime.DateTime(2011,4,24,0,00).jdn) niedrigste Mittagsvariation SJD1=(X.JD > mx.DateTime.DateTime(2011,4,22,0,0).jdn) & (X.JD < mx.DateTime.DateTime(2011,4,24,0,00).jdn)
SSH=(X.Sunheight_deg_from_JD(X.JD)>35)|((X.Sunheight_deg_from_JD(X.JD)<0)&(X.Sunheight_deg_from_JD(X.JD)>-18)) SJD=(SJD1)&SSH FIT=X.fit_em1_to_natLight(JD_select=SJD, Lux_range=[0.01,300000],type='em1c0T',time_correction_seconds=0)
figure(3); clf() X.plot_NatLight(); X.plot_Mond_GR_Lux_h_extinction() X.plot_em1c0T(a,b,c,x0,d,marker=',',color='g') X.plot_em1T(a,b,c,d,marker=',',color='k') X.plot_em1T(a,b,c,d,marker=',',color='r', JD_select=SJD)
X.plot_Sunlight_Watt_per_square_meter_from_JD_DM(surface_pressure=1013.0,T_dew_C=4.0,factor=110,c='c',marker=',',linestyle=':') Weather underground 1030 Wien http://www.wunderground.com/weatherstation/WXDailyHistory.asp? ID=IWIENWIE4&month=4&day=23&year=2011
title("Lightmeter Wien-Zentrum, Lebensministerium, cal. April 2011"); suptitle(X.Datum[X.JD.argmin()]+" to "+X.Datum[X.JD.argmax()]) xlabel("Time [UTC]"); ylabel("Illumination / [Lux]"); legend(prop=matplotlib.font_manager.FontProperties(size='small'),loc='upper right')
lebenstit="Wien Zentrum, Lebensministerium "+X.Datum[X.JD.argmin()]+" to "+X.Datum[X.JD.argmax()] figure(); X.plot_dndLux_all_skies(X.em1T(X.Strom,X.Temperatur,a,b,c,d),bins=50,lgLux_range=[-5.5,-2],unit="Watt/(m*m)")
figure(); X.plot_dndLux_all_skies(X.em1T(X.Strom,X.Temperatur,a,b,c,d),bins=200,title=lebenstit)
--GuentherWuchterl 15:16, 25. Jun. 2011 (UTC)
Kalibration Ende März '11
Log:
x=lies_Verzeichnis('/home/lightmeter1/Desktop/LIGHT/atlebmin2011-09-04/', Datenschritt=30, timezone=1); a,b,c,x0,d= 1.296e+05,3.508e-02,2.289e-07,-2.910e-03,6.276e-03 x.Observer.elev=209; x.Observer.lat="48:12:33.35"; x.Observer.long="16:22:54.32"; # LEBmin execfile("_hello.py") Calculating Lunar Ephemeris; please wait Calculating Solar Ephemeris; please wait 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)) sjd1=(x.JD>mx.DateTime.DateTime(2011,4,3,0,0,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,4,3,4,48,0).jdn) sjd2=(x.JD>mx.DateTime.DateTime(2011,4,3,17,40,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,4,3,18,10,0).jdn) sjd3=(x.JD>mx.DateTime.DateTime(2011,4,2,15,25,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,4,2,18,25,0).jdn) sjd4=(x.JD>mx.DateTime.DateTime(2011,4,4,3,5,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,4,4,4,10,0).jdn) sjd5=(x.JD>mx.DateTime.DateTime(2011,4,3,9,0,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,4,3,14,48,0).jdn) sjd7=(x.JD>mx.DateTime.DateTime(2011,3,30,5,35,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,3,30,14,0,0).jdn) sjd6=(x.JD>mx.DateTime.DateTime(2011,4,10,5,15,0).jdn) & (x.JD<mx.DateTime.DateTime(2011,4,10,6,15,0).jdn) SELECT=(sjd1|sjd2|sjd3|sjd4|sjd5|sjd6|sjd7)&ssh1 x.fit_em1_to_natLight(JD_select=SELECT, Lux_range=[0.00001,300000]); Fit: a,b,c,x0,d,: 1.214e+05,3.952e-02,1.248e-07,-1.833e-02,5.393e-03, (res2/(N-n-1))^1/2 = 0.173 ,N=1802,n= 5 a,b,c,x0,d= 1.214e+05,3.952e-02,1.248e-07,-1.833e-02,5.393e-03 x.plot_Sunlight_Watt_per_square_meter_from_JD_DM(surface_pressure=997.0, T_dew_C=3.0, factor=106, c='c', marker=',' , linestyle=':') legend(prop=matplotlib.font_manager.FontProperties(size='small'),loc='center left') x.set_simple_time_axis_format()
a , b , c , x0 , d = 1.214e+05 , 3.952e-02 , 1.248e-07 , -1.833e-02 , 5.393e-03 #hier c_Lux! f=106
--Nero2401 12:47, 4. Sep. 2011 (UTC)