Пример #1
0
ye = ZP[2:4]

## Read GPM Data
## -------------
pfad2 = ('/home/velibor/shkgpm/data/' + str(year) + str(m) + str(d) +
         '/dpr/*.HDF5')
pfad_gpm = glob.glob(pfad2)
pfad_gpm_g = pfad_gpm[0]

# GPM Lage und Zeit
gpmdpr = h5py.File(pfad_gpm_g, 'r')
gprof_lat = np.array(gpmdpr['NS']['Latitude'])
gprof_lon = np.array(gpmdpr['NS']['Longitude'])
gpm_time = gpmdpr['NS']['ScanTime']
gpm_zeit = get_time_of_gpm(gprof_lon, gprof_lat, gpm_time)
print 'GPM Datum: ', gpm_zeit

ff = 15
cc = 0.4
# -----------------------------------------------------------------------------
fig = plt.figure(figsize=(12, 12))

#GPM Parameter
gpm_para = [
    'zFactorCorrectedNearSurface', 'zFactorCorrectedESurface',
    'precipRateNearSurface', 'piaFinal'
]
gl = len(gpm_para)
for iii in range(gl):
    gprof_pp = np.array(gpmdpr['NS']['SLV'][gpm_para[iii]])
Пример #2
0
    pfad_gpm_g = pfad_gpm[i]

    try:

        gpmdpr = h5py.File(pfad_gpm_g, 'r')
        lat = np.array(gpmdpr['NS']['Latitude'])
        lon = np.array(gpmdpr['NS']['Longitude'])

        gprof_pp = np.array(gpmdpr['NS']['SLV']['zFactorCorrectedNearSurface'])

        gprof_pp[gprof_pp <= 0] = np.nan

        gpm_time = gpmdpr['NS']['ScanTime']

        try:
            gpm_zeit = get_time_of_gpm(lon, lat, gpm_time)

        except ValueError:

            gpm_zeit = ' '

        gprof_phase = np.array(gpmdpr['NS']['SLV']['phaseNearSurface'],
                               dtype=int)
        #gprof_wi=np.array(gpmdpr['NS']['CSF']['flagShallowRain'],dtype=float)
        gprof_wi = np.array(gpmdpr['NS']['PRE']['heightStormTop'])
        gprof_bb = np.array(gpmdpr['NS']['CSF']['heightBB'])
        gprof_bb[gprof_bb == -1111.1] = np.nan
        gprof_wi[gprof_wi == -9999.9] = np.nan
        #gprof_wi[gprof_wi==-1111.] = np.nan
        #Phase 0-solid, 1-mixed, 2-liquid, 255-missing
        #gprof_phase[gprof_phase==255.]= np.nan
Пример #3
0
    ## Read GPM Data
    ## -------------

    pfad2 = ('/home/velibor/shkgpm/data/'+str(year)+str(m)+str(d)+'/gprof/*.HDF5')
    pfad_gprof = glob.glob(pfad2)
    pfad_gprof_g = pfad_gprof[0]

    gpmdprs = h5py.File(pfad_gprof_g, 'r')
    gprof_lat=np.array(gpmdprs['S1']['Latitude'])
    gprof_lon=np.array(gpmdprs['S1']['Longitude'])

    gprof_pp=np.array(gpmdprs['S1']['surfacePrecipitation'])

    gpm_time = gpmdprs['S1']['ScanTime']
    gpm_zeit = get_time_of_gpm(gprof_lon, gprof_lat, gpm_time)
    print gpm_zeit

    gprof_pp[gprof_pp==-9999.9]= np.nan

    ht, mt = gpm_zeit[14:16], str(int(round(float(gpm_zeit[17:19])/5.0)*5.0))
    if mt == '0':
        mt = '00'
    elif mt == '5':
        mt = '05'
    print mt

    ## Read RADOLAN Data
    ## -----------------

    r_pro = 'rx' #rz oder rx###############
Пример #4
0
    try:

        gpmdpr = h5py.File(pfad_gpm_g, 'r')
        lat=np.array(gpmdpr['NS']['Latitude'])
        lon=np.array(gpmdpr['NS']['Longitude'])

        gprof_pp=np.array(gpmdpr['NS']['SLV']['zFactorCorrectedNearSurface'])

        gprof_pp[gprof_pp<=0]= np.nan


        gpm_time = gpmdpr['NS']['ScanTime']

        try:
            gpm_zeit = get_time_of_gpm(lon, lat, gpm_time)

        except ValueError:

            gpm_zeit = ' '

        gprof_phase=np.array(gpmdpr['NS']['SLV']['phaseNearSurface'],dtype=int)
        #gprof_wi=np.array(gpmdpr['NS']['CSF']['flagShallowRain'],dtype=float)
        gprof_wi=np.array(gpmdpr['NS']['PRE']['heightStormTop'])
        gprof_bb=np.array(gpmdpr['NS']['CSF']['heightBB'])
        gprof_bb[gprof_bb==-1111.1] = np.nan
        gprof_wi[gprof_wi==-9999.9] = np.nan
        #gprof_wi[gprof_wi==-1111.] = np.nan
        #Phase 0-solid, 1-mixed, 2-liquid, 255-missing
        #gprof_phase[gprof_phase==255.]= np.nan