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Bug Fixed: Reading Frames and Selecting pulses
Bug Fixed: Reading Frames and Selecting pulses
Daniel Valdez - - Load All Authors

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amisr_reader_exp_ex2.py
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/ schainpy / test / amisr_reader_exp_ex2.py
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Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474 import os, sys
path = os.path.split(os.getcwd())[0]
sys.path.append(path)
from controller import *
desc = "AMISR Experiment Test"
filename = "amisr.xml"
controllerObj = Project()
controllerObj.setup(id = '191', name='test01', description=desc)
path = '/home/administrator/Documents/amisr'
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476 path = '/media/administrator/New Volume/amisr'
figpath = '/home/administrator/Pictures/amisr'
figfile0 = 'amisr_rti_beam0.png'
figfile1 = 'amisr_rti_beam1.png'
figfile2 = 'amisr_rti_beam2.png'
figfile3 = 'amisr_rti_beam3.png'
figfile4 = 'amisr_rti_beam4.png'
figfile5 = 'amisr_rti_beam5.png'
figfile6 = 'amisr_rti_beam6.png'
title0 = 'RTI AMISR Beam 0'
title1 = 'RTI AMISR Beam 1'
title2 = 'RTI AMISR Beam 2'
title3 = 'RTI AMISR Beam 3'
title4 = 'RTI AMISR Beam 4'
title5 = 'RTI AMISR Beam 5'
title6 = 'RTI AMISR Beam 6'
Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474
Daniel Valdez
getting the experiment parameters from cfg files
r478 profileStrSelBeam0 = '0,101'
profileStrSelBeam1 = '614,741'
profileStrSelBeam2 = '358,485'
profileStrSelBeam3 = '742,869'
profileStrSelBeam4 = '230,357'
profileStrSelBeam5 = '486,613'
profileStrSelBeam6 = '102,229'
Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474 readUnitConfObj = controllerObj.addReadUnit(datatype='AMISR',
path=path,
Daniel Valdez
getting the experiment parameters from cfg files
r478 startDate='2014/08/20',
endDate='2014/08/20',
Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474 startTime='00:00:00',
endTime='23:59:59',
walk=1)
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476
Daniel Valdez
getting the experiment parameters from cfg files
r478 # procUnitConfObjBeam0 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
# opObj11 = procUnitConfObjBeam0.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam0, format='intlist')
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476
Daniel Valdez
getting the experiment parameters from cfg files
r478 # procUnitConfObjBeam1 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
# procUnitConfObjBeam2 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
# procUnitConfObjBeam3 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
# procUnitConfObjBeam4 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
# procUnitConfObjBeam5 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
# procUnitConfObjBeam6 = controllerObj.addProcUnit(datatype='Voltage', inputId=readUnitConfObj.getId())
Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474
Daniel Valdez
getting the experiment parameters from cfg files
r478 procUnitAMISR = controllerObj.addProcUnit(datatype='AMISR', inputId=readUnitConfObj.getId())
opObj11 = procUnitAMISR.addOperation(name='BeamSelector', optype='other')
opObj11.addParameter(name='beam', value='1', format='int')
Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474
Daniel Valdez
getting the experiment parameters from cfg files
r478 procUnitConfObjBeam1 = controllerObj.addProcUnit(datatype='Voltage', inputId=procUnitAMISR.getId())
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476
opObj11 = procUnitConfObjBeam1.addOperation(name='CohInt', optype='other')
opObj11.addParameter(name='n', value='128', format='int')
Daniel Valdez
getting the experiment parameters from cfg files
r478
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476 procUnitConfObjSpectraBeam1 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam1.getId())
procUnitConfObjSpectraBeam1.addParameter(name='nFFTPoints', value='32', format='int')
procUnitConfObjSpectraBeam1.addParameter(name='nProfiles', value='32', format='int')
Daniel Valdez
getting the experiment parameters from cfg files
r478
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476 opObj11 = procUnitConfObjSpectraBeam1.addOperation(name='getNoise')
opObj11.addParameter(name='minHei', value='100', format='float')
opObj11.addParameter(name='maxHei', value='450', format='float')
Daniel Valdez
getting the experiment parameters from cfg files
r478
opObj11 = procUnitConfObjSpectraBeam1.addOperation(name='SpectraPlot', optype='other')
opObj11.addParameter(name='id', value='100', format='int')
opObj11.addParameter(name='wintitle', value='SpectraPlot', format='str')
# ############################# Beam0 #############################
# opObj11 = procUnitConfObjBeam0.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam0, format='intlist')
#
# opObj11 = procUnitConfObjBeam0.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='102', format='int')
#
# procUnitConfObjSpectraBeam0 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam0.getId())
# procUnitConfObjSpectraBeam0.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam0.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='200', format='int')
# opObj11.addParameter(name='wintitle', value=title0, format='str')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476 # opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
Daniel Valdez
getting the experiment parameters from cfg files
r478 # #opObj11.addParameter(name='timerange', value='7200', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile0, format='str')
#
#
#
#
#
# #
# ############################# Beam1 #############################
# opObj11 = procUnitConfObjBeam1.addOperation(name='ProfileSelector', optype='other')
# #opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam1, format='intlist')
# opObj11.addParameter(name='beam', value='1', format='int')
#
# opObj11 = procUnitConfObjBeam1.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='128', format='int')
#
# procUnitConfObjSpectraBeam1 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam1.getId())
# procUnitConfObjSpectraBeam1.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam1.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam1.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam1.addOperation(name='SpectraPlot', optype='other')
# opObj11.addParameter(name='id', value='100', format='int')
# opObj11.addParameter(name='wintitle', value='SpectraPlot', format='str')
# # opObj11.addParameter(name='zmin', value='45', format='int')
# # opObj11.addParameter(name='zmax', value='70', format='int')
# # opObj11.addParameter(name='save', value='1', format='bool')
# # opObj11.addParameter(name='figpath', value='/Users/administrator/Pictures/amisr', format='str')
#
# opObj11 = procUnitConfObjSpectraBeam1.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='201', format='int')
# opObj11.addParameter(name='wintitle', value=title1, format='str')
# #opObj11.addParameter(name='timerange', value='36000', format='int')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
# opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile1, format='str')
Daniel Valdez
reading AMISR data from different Beams, other considerations to do RTI Plots, timezone is fixed to 300 minutes, x-axis in localtime.
 r476 # #
# #
# #
# #
# #
Daniel Valdez
getting the experiment parameters from cfg files
r478 # ############################## Beam2 #############################
# opObj11 = procUnitConfObjBeam2.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam2, format='intlist')
#
# opObj11 = procUnitConfObjBeam2.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='128', format='int')
#
# procUnitConfObjSpectraBeam2 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam2.getId())
# procUnitConfObjSpectraBeam2.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam2.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam2.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam2.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='202', format='int')
# opObj11.addParameter(name='wintitle', value=title2, format='str')
# #opObj11.addParameter(name='timerange', value='18000', format='int')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
# opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile2, format='str')
#
#
#
#
#
#
# ############################## Beam3 #############################
# opObj11 = procUnitConfObjBeam3.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam3, format='intlist')
#
# opObj11 = procUnitConfObjBeam3.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='128', format='int')
#
# procUnitConfObjSpectraBeam3 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam3.getId())
# procUnitConfObjSpectraBeam3.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam3.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam3.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam3.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='203', format='int')
# opObj11.addParameter(name='wintitle', value=title3, format='str')
# #opObj11.addParameter(name='timerange', value='18000', format='int')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
# opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile3, format='str')
# # #
# # #
# # #
# # #
# # #
# # #
# ############################## Beam4 #############################
# opObj11 = procUnitConfObjBeam4.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam4, format='intlist')
#
# opObj11 = procUnitConfObjBeam4.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='128', format='int')
#
# procUnitConfObjSpectraBeam4 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam4.getId())
# procUnitConfObjSpectraBeam4.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam4.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam4.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam4.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='204', format='int')
# opObj11.addParameter(name='wintitle', value=title4, format='str')
# #opObj11.addParameter(name='timerange', value='18000', format='int')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
# opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile4, format='str')
# # # #
# # # #
# # # #
# # # #
# # # #
# ############################## Beam5 #############################
# opObj11 = procUnitConfObjBeam5.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam5, format='intlist')
#
# opObj11 = procUnitConfObjBeam5.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='128', format='int')
#
# procUnitConfObjSpectraBeam5 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam5.getId())
# procUnitConfObjSpectraBeam5.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam5.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam5.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam5.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='205', format='int')
# opObj11.addParameter(name='wintitle', value=title5, format='str')
# #opObj11.addParameter(name='timerange', value='18000', format='int')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
# opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile5, format='str')
# # #
# # # #
# # # #
# # # #
# # # #
# ############################## Beam6 #############################
# opObj11 = procUnitConfObjBeam6.addOperation(name='ProfileSelector', optype='other')
# opObj11.addParameter(name='profileRangeList', value=profileStrSelBeam6, format='intlist')
#
# opObj11 = procUnitConfObjBeam6.addOperation(name='CohInt', optype='other')
# opObj11.addParameter(name='n', value='128', format='int')
#
# procUnitConfObjSpectraBeam6 = controllerObj.addProcUnit(datatype='Spectra', inputId=procUnitConfObjBeam6.getId())
# procUnitConfObjSpectraBeam6.addParameter(name='nFFTPoints', value='32', format='int')
# procUnitConfObjSpectraBeam6.addParameter(name='nProfiles', value='32', format='int')
#
# opObj11 = procUnitConfObjSpectraBeam6.addOperation(name='getNoise')
# opObj11.addParameter(name='minHei', value='100', format='float')
# opObj11.addParameter(name='maxHei', value='450', format='float')
#
# opObj11 = procUnitConfObjSpectraBeam6.addOperation(name='RTIPlot', optype='other')
# opObj11.addParameter(name='id', value='206', format='int')
# opObj11.addParameter(name='wintitle', value=title6, format='str')
# #opObj11.addParameter(name='timerange', value='18000', format='int')
# opObj11.addParameter(name='xmin', value='0', format='int')
# opObj11.addParameter(name='xmax', value='18', format='int')
# opObj11.addParameter(name='zmin', value='45', format='int')
# opObj11.addParameter(name='zmax', value='70', format='int')
# opObj11.addParameter(name='showprofile', value='0', format='int')
# opObj11.addParameter(name='figpath', value=figpath, format='str')
# opObj11.addParameter(name='figfile', value=figfile6, format='str')
Daniel Valdez
AMISR Reader integration with Signal Chain Blocks, this time just only for Voltages to Profile Selection and Plotting Scope(Power,IQ) and Power Profile(dB). There is thwo python scripts as experiment's test.
 r474
print "Escribiendo el archivo XML"
controllerObj.writeXml(filename)
print "Leyendo el archivo XML"
controllerObj.readXml(filename)
controllerObj.createObjects()
controllerObj.connectObjects()
controllerObj.run()