import os, sys import time import datetime path = os.path.dirname(os.getcwd()) path = os.path.dirname(path) sys.path.insert(0, path) from schainpy.controller import Project desc = "AMISR Experiment" filename = "amisr_reader.xml" controllerObj = Project() controllerObj.setup(id = '191', name='esf_proc', description=desc) path = os.path.join(os.environ['HOME'],'amisr') # path = '/media/signalchain/HD-PXU2/AMISR_JULIA_MODE' # path = '/media/soporte/E9F4-F053/AMISR/Data/NoiseTest/EEJ' # path = '/media/soporte/E9F4-F053/AMISR/Data/ESF' path = '/mnt/data_amisr' #path = '/media/soporte/AMISR_104' #figpath = os.path.join(os.environ['HOME'],'Pictures/amisr/test/proc/esf') #figpath = '/media/soporte/E9F4-F053/AMISR/Data/JULIA/ESF' figpath = '/home/soporte/Data/ESF' remotefolder = "/home/wmaster/graficos" xmin = '18' xmax = '31' dbmin = '60' #'60'#'55' #'40' #noise esf eej dbmax = '75' #'70' #'55' show = '0' code = '1,-1,-1,-1,1,1,1,1,-1,-1,-1,1,-1,-1,-1,1,-1,-1,-1,1,-1,-1,1,-1,1,1,-1,1' nCode = '1' nBaud = '28' nosamp = '2' # oversample str = datetime.date.today() str1 = str + datetime.timedelta(days=1) str2 = str - datetime.timedelta(days=1) today = str.strftime("%Y/%m/%d") tomorrow = str1.strftime("%Y/%m/%d") yesterday = str2.strftime("%Y/%m/%d") readUnitConfObj = controllerObj.addReadUnit(datatype='AMISRReader', path=path, startDate=yesterday, #'2014/10/07', endDate=today, #'2014/10/07', startTime='18:01:30',#'07:00:00', endTime='07:00:00',#'15:00:00', walk=0, code = code, nCode = nCode, nBaud = nBaud, timezone='lt', online=0) #AMISR Processing Unit #Voltage Processing Unit procUnitConfObjBeam0 = controllerObj.addProcUnit(datatype='VoltageProc', inputId=readUnitConfObj.getId()) opObj10 = procUnitConfObjBeam0.addOperation(name='setRadarFrequency') opObj10.addParameter(name='frequency', value='445e6', format='float') #chaned on Dec 3, 15:40h #opObj10.addParameter(name='frequency', value='435e6', format='float') # opObj12 = procUnitConfObjBeam0.addOperation(name='selectHeights') # opObj12.addParameter(name='minHei', value='0', format='float') # code = '1,1,-1,1,1,-1,1,-1,-1,1,-1,-1,-1,1,-1,-1,-1,1,-1,-1,-1,1,1,1,1,-1,-1,-1' # code = '1,1,0,1,1,0,1,0,0,1,0,0,0,1,0,0,0,1,0,0,0,1,1,1,1,0,0,0' #Noise--> no code opObj11 = procUnitConfObjBeam0.addOperation(name='Decoder', optype='other') opObj11.addParameter(name='code', value=code, format='floatlist') opObj11.addParameter(name='nCode', value=nCode, format='int') opObj11.addParameter(name='nBaud', value=nBaud, format='int') opObj11.addParameter(name='osamp', value=nosamp, format='int') # opObj12 = procUnitConfObjBeam0.addOperation(name='selectHeights') # opObj12.addParameter(name='minHei', value='50', format='float') # opObj12.addParameter(name='maxHei', value='150', format='float') #Coherent Integration # opObj11 = procUnitConfObjBeam0.addOperation(name='CohInt', optype='other') # opObj11.addParameter(name='n', value='2', format='int') # opObj11 = procUnitConfObjBeam0.addOperation(name='Scope', optype='other') # opObj11.addParameter(name='id', value='121', format='int') #Spectra Unit Processing, getting spectras with nProfiles and nFFTPoints procUnitConfObjSpectraBeam0 = controllerObj.addProcUnit(datatype='SpectraProc', inputId=procUnitConfObjBeam0.getId()) procUnitConfObjSpectraBeam0.addParameter(name='nFFTPoints', value=32, format='int') # opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='IncohInt', optype='other') opObj11.addParameter(name='n', value='60', format='int') #opObj11.addParameter(name='timeInterval', value='30', format='float') # # #RemoveDc # # opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='removeDC') #Noise Estimation opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='getNoise') opObj11.addParameter(name='minHei', value='650', format='float') opObj11.addParameter(name='maxHei', value='800', format='float') #opObj11.addParameter(name='minHei', value='15', format='float') #opObj11.addParameter(name='maxHei', value='20', format='float') # #SpectraPlot # opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='SpectraPlot', optype='other') # opObj11.addParameter(name='id', value='1', format='int') # opObj11.addParameter(name='wintitle', value='AMISR Beam 0', format='str') # #opObj11.addParameter(name='zmin', value='38', format='int') # opObj11.addParameter(name='zmin', value=dbmin, format='int') # opObj11.addParameter(name='zmax', value=dbmax, format='int') # opObj11.addParameter(name='save', value='1', format='bool') # opObj11.addParameter(name='figpath', value = figpath, format='str') # #RTIPlot # #title0 = 'RTI AMISR Beam 0' opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='RTIPlot', optype='other') opObj11.addParameter(name='id', value='2', format='int') opObj11.addParameter(name='wintitle', value='ESF AMISR', format='str') opObj11.addParameter(name='showprofile', value='0', format='int') opObj11.addParameter(name='xmin', value=xmin, format='float') opObj11.addParameter(name='xmax', value=xmax, format='float') opObj11.addParameter(name='zmin', value=dbmin, format='int') opObj11.addParameter(name='zmax', value=dbmax, format='int') opObj11.addParameter(name='save', value='1', format='bool') opObj11.addParameter(name='figpath', value = figpath+'/plots', format='str') opObj11.addParameter(name='show', value = show, format='bool') # # # # # # # #Noise #title0 = 'RTI AMISR Beam 0' opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='Noise', optype='other') opObj11.addParameter(name='id', value='3', format='int') opObj11.addParameter(name='wintitle', value='ESF AMISR', format='str') opObj11.addParameter(name='showprofile', value='0', format='int') opObj11.addParameter(name='xmin', value=xmin, format='float') opObj11.addParameter(name='xmax', value=xmax, format='float') opObj11.addParameter(name='ymin', value=dbmin, format='int') opObj11.addParameter(name='ymax', value=dbmax, format='int') opObj11.addParameter(name='save', value='1', format='bool') opObj11.addParameter(name='figpath', value = figpath+'/plots', format='str') opObj11.addParameter(name='show', value = show, format='bool') #Generate *.pdata from AMISR data opObj11 = procUnitConfObjSpectraBeam0.addOperation(name='SpectraWriter', optype='other') opObj11.addParameter(name='path', value=figpath) opObj11.addParameter(name='blocksPerFile', value='10', format='int') opObj11.addParameter(name='datatype', value="4", format="int") #size of data to be saved #generate moments procUnitConfObj2 = controllerObj.addProcUnit(datatype='ParametersProc', inputId=procUnitConfObjSpectraBeam0.getId()) opObj20 = procUnitConfObj2.addOperation(name='GetMoments') opObj12 = procUnitConfObj2.addOperation(name='HDF5Writer', optype='other') opObj12.addParameter(name='path', value=figpath+'/param') opObj12.addParameter(name='blocksPerFile', value='10', format='int') opObj12.addParameter(name='metadataList',value='type,inputUnit,heightList',format='list') opObj12.addParameter(name='dataList',value='data_param,data_SNR,utctime',format='list') opObj12.addParameter(name='mode',value='1',format='int') # procUnitConfObj2 = controllerObj.addProcUnit(name='SendToServer') # procUnitConfObj2.addParameter(name='server', value='jro-app.igp.gob.pe', format='str') # procUnitConfObj2.addParameter(name='username', value='wmaster', format='str') # procUnitConfObj2.addParameter(name='password', value='mst2010vhf', format='str') # procUnitConfObj2.addParameter(name='localfolder', value=pathFigure, format='str') # procUnitConfObj2.addParameter(name='remotefolder', value=remotefolder, format='str') # procUnitConfObj2.addParameter(name='ext', value='.png', format='str') # procUnitConfObj2.addParameter(name='period', value=5, format='int') # procUnitConfObj2.addParameter(name='protocol', value='ftp', format='str') #----------------------------------------------------------------------------------------------- print "Escribiendo el archivo XML" controllerObj.writeXml(filename) print "Leyendo el archivo XML" controllerObj.readXml(filename) controllerObj.createObjects() controllerObj.connectObjects() controllerObj.run() #21 3 pm