Esempio n. 1
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#dateStr  = '20101119'
#pdf = PdfPages('sandy.pdf')
for dateStr in dateList:
    #data = pydarn.radDataRead(dateStr,rad,times,fileType=fileType,beam=beam)

    vtrad = pydarn.vtrad(dateStr, rad, times, fileType=fileType)

    availDt = np.array(vtrad.active.data.getTimes())
    time = availDt[0]

    i = 0
    allBeams = []
    allBeams.append(vtrad.active.data[availDt[0]])

    dt = availDt
    data = vtrad.active.data

    #pydarn.radDataPlotFan([vtrad.active.data],colors='aj',model='GS',param='power')
    #pydarn.plotRti(dateStr,rad,beam=beam,time=times,fileType=fileType,coords='rng',model='GS',yrng=[500,1000])

    plt = pydarn.radDataPlotRti(vtrad.active.data,
                                beam=beam,
                                coords='rng',
                                model='GS',
                                fileType=fileType,
                                yrng=[0, 2000])
    #  pdf.savefig(plt.fig)
    plt.fig.savefig('sandy/' + dateStr + 'b' + str(beam) + '.png')

#pdf.close()
Esempio n. 2
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import pydarn
import datetime
import numpy as np

dateStr  = '20101119'
rad      = 'gbr'
times    = [1400,1600]
beam     = 6
fileType = 'fitex'
#data = pydarn.radDataRead(dateStr,rad,times,fileType=fileType,beam=beam)

vtrad = pydarn.vtrad(dateStr,rad,times,fileType=fileType)

availDt = np.array(vtrad.active.data.getTimes())
time = availDt[0]

i = 0
allBeams = []
allBeams.append(vtrad.active.data[availDt[0]])

dt = availDt
data = vtrad.active.data

#pydarn.radDataPlotFan([vtrad.active.data],colors='aj',model='GS',param='power')
#pydarn.plotRti(dateStr,rad,beam=beam,time=times,fileType=fileType,coords='rng',model='GS',yrng=[500,1000])
pydarn.radDataPlotRti(vtrad.active.data,beam=beam,coords='rng',model='GS',yrng=[500,1000],fileType=fileType)
Esempio n. 3
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File: sandy.py Progetto: w2naf/waver
rad      = 'wal'
times    = [0,2359]
beam     = 0
fileType = 'fitex'

#dateStr  = '20101119'
#pdf = PdfPages('sandy.pdf')
for dateStr in dateList:
  #data = pydarn.radDataRead(dateStr,rad,times,fileType=fileType,beam=beam)

  vtrad = pydarn.vtrad(dateStr,rad,times,fileType=fileType)

  availDt = np.array(vtrad.active.data.getTimes())
  time = availDt[0]

  i = 0
  allBeams = []
  allBeams.append(vtrad.active.data[availDt[0]])

  dt = availDt
  data = vtrad.active.data

  #pydarn.radDataPlotFan([vtrad.active.data],colors='aj',model='GS',param='power')
  #pydarn.plotRti(dateStr,rad,beam=beam,time=times,fileType=fileType,coords='rng',model='GS',yrng=[500,1000])

  plt = pydarn.radDataPlotRti(vtrad.active.data,beam=beam,coords='rng',model='GS',fileType=fileType,yrng=[0,2000])
#  pdf.savefig(plt.fig)
  plt.fig.savefig('sandy/'+dateStr+'b'+str(beam)+'.png')

#pdf.close()
Esempio n. 4
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import datetime
import numpy as np

dateStr = '20101119'
rad = 'gbr'
times = [1400, 1600]
beam = 6
fileType = 'fitex'
#data = pydarn.radDataRead(dateStr,rad,times,fileType=fileType,beam=beam)

vtrad = pydarn.vtrad(dateStr, rad, times, fileType=fileType)

availDt = np.array(vtrad.active.data.getTimes())
time = availDt[0]

i = 0
allBeams = []
allBeams.append(vtrad.active.data[availDt[0]])

dt = availDt
data = vtrad.active.data

#pydarn.radDataPlotFan([vtrad.active.data],colors='aj',model='GS',param='power')
#pydarn.plotRti(dateStr,rad,beam=beam,time=times,fileType=fileType,coords='rng',model='GS',yrng=[500,1000])
pydarn.radDataPlotRti(vtrad.active.data,
                      beam=beam,
                      coords='rng',
                      model='GS',
                      yrng=[500, 1000],
                      fileType=fileType)