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Update schain parameters and add experiment_date (generator)
Update schain parameters and add experiment_date (generator)
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sophy_proc.py
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/ volumes / schain / sophy_proc.py
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#!/opt/conda/bin/python
import os, sys, json, argparse
import datetime
import time
PATH = '/data'
PARAM = {
'P': {'name': 'dataPP_POWER', 'zmin': 35, 'zmax': 60, 'colormap': 'viridis', 'label': 'Power', 'cb_label': 'dB'},
'V': {'name': 'dataPP_DOP', 'zmin': -20, 'zmax': 20, 'colormap': 'seismic', 'label': 'Velocity', 'cb_label': 'm/s'}
}
def main(args):
experiment = args.experiment
fp = open(os.path.join(PATH, experiment, 'experiment.conf'))
conf = json.loads(fp.read())
ipp_km = conf['usrp_tx']['ipp']
ipp = ipp_km * 2 /300000
samp_rate = conf['usrp_rx']['sample_rate']
axis = ['0' if x=='elevation' else '1' for x in conf['pedestal']['axis']] # AZIMUTH 1 ELEVACION 0
speed_axis = conf['pedestal']['speed']
steeps = conf['pedestal']['table']
time_offset = args.time_offset
parameters = args.parameters
start_date = experiment.split('@')[1].split('T')[0].replace('-', '/')
end_date = start_date
start_time = experiment.split('@')[1].split('T')[1].replace('-', ':')
end_time = '23:59:59'
max_index = int(samp_rate*ipp*1e6 * args.range / 60) + int(samp_rate*ipp*1e6 * 1.2 / 60)
N = int(1/(speed_axis[0]*ipp)) # 1 GRADO DE RESOLUCION
path = os.path.join(PATH, experiment, 'rawdata')
path_ped = os.path.join(PATH, experiment, 'position')
path_plots = os.path.join(PATH, experiment, 'plots')
path_save = os.path.join(PATH, experiment, 'param')
dBmin = 35
dBmax = 60
Vmin = -20
Vmax = 20
from schainpy.controller import Project
project = Project()
project.setup(id='1', name='Sophy', description='sophy proc')
reader = project.addReadUnit(datatype='DigitalRFReader',
path=path,
startDate=start_date,
endDate=end_date,
startTime=start_time,
endTime=end_time,
delay=0,
online=0,
walk=1,
ippKm = ipp_km,
getByBlock = 1,
nProfileBlocks = N,
)
voltage = project.addProcUnit(datatype='VoltageProc', inputId=reader.getId())
op = voltage.addOperation(name='setH0')
op.addParameter(name='h0', value='-1.2')
if args.range > 0:
op = voltage.addOperation(name='selectHeights')
op.addParameter(name='minIndex', value='0', format='int')
op.addParameter(name='maxIndex', value=max_index, format='int')
op = voltage.addOperation(name='PulsePair_vRF', optype='other')
op.addParameter(name='n', value=int(N), format='int')
proc = project.addProcUnit(datatype='ParametersProc', inputId=voltage.getId())
op = proc.addOperation(name='PedestalInformation')
op.addParameter(name='path', value=path_ped, format='str')
op.addParameter(name='interval', value='0.04', format='float')
op.addParameter(name='time_offset', value=time_offset)
op.addParameter(name='az_offset', value=0, format='int')
for param in parameters:
op = proc.addOperation(name='Block360_vRF4')
op.addParameter(name='axis', value=','.join(axis))
op.addParameter(name='attr_data', value=PARAM[param]['name'])
op.addParameter(name='runNextOp', value=True)
if axis[0] == '1':
path_fig = '/PPI-{}km'.format(args.range)
op= proc.addOperation(name='Weather_vRF_Plot')
if args.save: op.addParameter(name='save', value=path_plots+path_fig, format='str')
op.addParameter(name='save_period', value=-1)
op.addParameter(name='show', value=args.show)
op.addParameter(name='channels', value='1,')
op.addParameter(name='zmin', value=PARAM[param]['zmin'])
op.addParameter(name='zmax', value=PARAM[param]['zmax'])
op.addParameter(name='attr_data', value=PARAM[param]['name'], format='str')
op.addParameter(name='labels', value=[PARAM[param]['label']])
op.addParameter(name='save_code', value=param)
op.addParameter(name='cb_label', value=PARAM[param]['cb_label'])
op.addParameter(name='colormap', value=PARAM[param]['colormap'])
if axis[0] == '0':
path_fig = '/RHI{}km'.format(args.range)
op= proc.addOperation(name='WeatherRHI_vRF4_Plot')
if args.save: op.addParameter(name='save', value=path_plots+path_fig, format='str')
op.addParameter(name='save_period', value=-1)
op.addParameter(name='show', value=args.show)
op.addParameter(name='channels', value='(1,)')
op.addParameter(name='zmin', value=PARAM[param]['zmin'])
op.addParameter(name='zmax', value=PARAM[param]['zmax'])
op.addParameter(name='attr_data', value=PARAM[param]['name'], format='str')
op.addParameter(name='labels', value=[PARAM[param]['label']])
op.addParameter(name='save_code', value=param)
op.addParameter(name='cb_label', value=PARAM[param]['cb_label'])
op.addParameter(name='colormap', value=PARAM[param]['colormap'])
if args.save:
opObj10 = proc.addOperation(name='HDFWriter')
opObj10.addParameter(name='path',value=path_save, format='str')
opObj10.addParameter(name='Reset',value=True)
opObj10.addParameter(name='blocksPerFile',value='1',format='int')
opObj10.addParameter(name='metadataList',value='heightList,data_azi,data_ele')
opObj10.addParameter(name='dataList',value='dataPP_POWER,utctime')
project.start()
if __name__ == '__main__':
parser = argparse.ArgumentParser(description='Script to process SOPHy data.')
parser.add_argument('experiment',
help='Experiment name')
parser.add_argument('--parameters', nargs='*', default=['P'],
help='Variables to process: P, Z, V')
parser.add_argument('--time_offset', default=0,
help='Fix time offset')
parser.add_argument('--range', default=0, type=float,
help='Max range to plot')
parser.add_argument('--save', action='store_true',
help='Create output files')
parser.add_argument('--show', action='store_true',
help='Show matplotlib plot.')
parser.add_argument('--online', action='store_true',
help='Set online mode.')
parser.add_argument('--rti', action='store_true',
help='Set RTI plot.')
args = parser.parse_args()
main(args)