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changes to integrate AMISR Reader with Voltage and Spectra Objs
changes to integrate AMISR Reader with Voltage and Spectra Objs
Daniel Valdez - - Load All Authors

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jrodata.py
689 lines | 16.5 KiB | text/x-python | PythonLexer
/ schainpy / model / jrodata.py
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'''
$Author: murco $
$Id: JROData.py 173 2012-11-20 15:06:21Z murco $
'''
import os, sys
import copy
import numpy
import datetime
from jroheaderIO import SystemHeader, RadarControllerHeader
def hildebrand_sekhon(data, navg):
data = data.copy()
sortdata = numpy.sort(data,axis=None)
lenOfData = len(sortdata)
nums_min = lenOfData/10
if (lenOfData/10) > 2:
nums_min = lenOfData/10
else:
nums_min = 2
sump = 0.
sumq = 0.
j = 0
cont = 1
while((cont==1)and(j<lenOfData)):
sump += sortdata[j]
sumq += sortdata[j]**2
j += 1
if j > nums_min:
rtest = float(j)/(j-1) + 1.0/navg
if ((sumq*j) > (rtest*sump**2)):
j = j - 1
sump = sump - sortdata[j]
sumq = sumq - sortdata[j]**2
cont = 0
lnoise = sump /j
stdv = numpy.sqrt((sumq - lnoise**2)/(j - 1))
return lnoise
class JROData:
# m_BasicHeader = BasicHeader()
# m_ProcessingHeader = ProcessingHeader()
systemHeaderObj = SystemHeader()
radarControllerHeaderObj = RadarControllerHeader()
# data = None
type = None
dtype = None
# nChannels = None
# nHeights = None
nProfiles = None
heightList = None
channelList = None
flagNoData = True
flagTimeBlock = False
useLocalTime = False
utctime = None
timeZone = None
dstFlag = None
errorCount = None
blocksize = None
nCode = None
nBaud = None
code = None
flagDecodeData = False #asumo q la data no esta decodificada
flagDeflipData = False #asumo q la data no esta sin flip
flagShiftFFT = False
ippSeconds = None
timeInterval = None
nCohInt = None
noise = None
windowOfFilter = 1
#Speed of ligth
C = 3e8
frequency = 49.92e6
realtime = False
beacon_heiIndexList = None
last_block = None
blocknow = None
def __init__(self):
raise ValueError, "This class has not been implemented"
def copy(self, inputObj=None):
if inputObj == None:
return copy.deepcopy(self)
for key in inputObj.__dict__.keys():
self.__dict__[key] = inputObj.__dict__[key]
def deepcopy(self):
return copy.deepcopy(self)
def isEmpty(self):
return self.flagNoData
def getNoise(self):
raise ValueError, "Not implemented"
def getNChannels(self):
return len(self.channelList)
def getChannelIndexList(self):
return range(self.nChannels)
def getNHeights(self):
return len(self.heightList)
def getHeiRange(self, extrapoints=0):
heis = self.heightList
# deltah = self.heightList[1] - self.heightList[0]
#
# heis.append(self.heightList[-1])
return heis
def getltctime(self):
if self.useLocalTime:
return self.utctime - self.timeZone*60
return self.utctime
def getDatatime(self):
datatime = datetime.datetime.utcfromtimestamp(self.ltctime)
return datatime
def getTimeRange(self):
datatime = []
datatime.append(self.ltctime)
datatime.append(self.ltctime + self.timeInterval)
datatime = numpy.array(datatime)
return datatime
def getFmax(self):
PRF = 1./(self.ippSeconds * self.nCohInt)
fmax = PRF/2.
return fmax
def getVmax(self):
_lambda = self.C/self.frequency
vmax = self.getFmax() * _lambda
return vmax
nChannels = property(getNChannels, "I'm the 'nChannel' property.")
channelIndexList = property(getChannelIndexList, "I'm the 'channelIndexList' property.")
nHeights = property(getNHeights, "I'm the 'nHeights' property.")
noise = property(getNoise, "I'm the 'nHeights' property.")
datatime = property(getDatatime, "I'm the 'datatime' property")
ltctime = property(getltctime, "I'm the 'ltctime' property")
class Voltage(JROData):
#data es un numpy array de 2 dmensiones (canales, alturas)
data = None
def __init__(self):
'''
Constructor
'''
self.radarControllerHeaderObj = RadarControllerHeader()
self.systemHeaderObj = SystemHeader()
self.type = "Voltage"
self.data = None
self.dtype = None
# self.nChannels = 0
# self.nHeights = 0
self.nProfiles = None
self.heightList = None
self.channelList = None
# self.channelIndexList = None
self.flagNoData = True
self.flagTimeBlock = False
self.utctime = None
self.timeZone = None
self.dstFlag = None
self.errorCount = None
self.nCohInt = None
self.blocksize = None
self.flagDecodeData = False #asumo q la data no esta decodificada
self.flagDeflipData = False #asumo q la data no esta sin flip
self.flagShiftFFT = False
def getNoisebyHildebrand(self):
"""
Determino el nivel de ruido usando el metodo Hildebrand-Sekhon
Return:
noiselevel
"""
for channel in range(self.nChannels):
daux = self.data_spc[channel,:,:]
self.noise[channel] = hildebrand_sekhon(daux, self.nCohInt)
return self.noise
def getNoise(self, type = 1):
self.noise = numpy.zeros(self.nChannels)
if type == 1:
noise = self.getNoisebyHildebrand()
return 10*numpy.log10(noise)
class Spectra(JROData):
#data es un numpy array de 2 dmensiones (canales, perfiles, alturas)
data_spc = None
#data es un numpy array de 2 dmensiones (canales, pares, alturas)
data_cspc = None
#data es un numpy array de 2 dmensiones (canales, alturas)
data_dc = None
nFFTPoints = None
nPairs = None
pairsList = None
nIncohInt = None
wavelength = None #Necesario para cacular el rango de velocidad desde la frecuencia
nCohInt = None #se requiere para determinar el valor de timeInterval
ippFactor = None
def __init__(self):
'''
Constructor
'''
self.radarControllerHeaderObj = RadarControllerHeader()
self.systemHeaderObj = SystemHeader()
self.type = "Spectra"
# self.data = None
self.dtype = None
# self.nChannels = 0
# self.nHeights = 0
self.nProfiles = None
self.heightList = None
self.channelList = None
# self.channelIndexList = None
self.flagNoData = True
self.flagTimeBlock = False
self.utctime = None
self.nCohInt = None
self.nIncohInt = None
self.blocksize = None
self.nFFTPoints = None
self.wavelength = None
self.flagDecodeData = False #asumo q la data no esta decodificada
self.flagDeflipData = False #asumo q la data no esta sin flip
self.flagShiftFFT = False
self.ippFactor = 1
self.noise = None
self.beacon_heiIndexList = []
def getNoisebyHildebrand(self):
"""
Determino el nivel de ruido usando el metodo Hildebrand-Sekhon
Return:
noiselevel
"""
noise = numpy.zeros(self.nChannels)
for channel in range(self.nChannels):
daux = self.data_spc[channel,:,:]
noise[channel] = hildebrand_sekhon(daux, self.nIncohInt)
return noise
def getNoise(self):
if self.noise != None:
return self.noise
else:
noise = self.getNoisebyHildebrand()
return noise
def getFreqRange(self, extrapoints=0):
deltafreq = self.getFmax() / (self.nFFTPoints*self.ippFactor)
freqrange = deltafreq*(numpy.arange(self.nFFTPoints+extrapoints)-self.nFFTPoints/2.) - deltafreq/2
return freqrange
def getVelRange(self, extrapoints=0):
deltav = self.getVmax() / (self.nFFTPoints*self.ippFactor)
velrange = deltav*(numpy.arange(self.nFFTPoints+extrapoints)-self.nFFTPoints/2.) - deltav/2
return velrange
def getNPairs(self):
return len(self.pairsList)
def getPairsIndexList(self):
return range(self.nPairs)
def getNormFactor(self):
pwcode = 1
if self.flagDecodeData:
pwcode = numpy.sum(self.code[0]**2)
#normFactor = min(self.nFFTPoints,self.nProfiles)*self.nIncohInt*self.nCohInt*pwcode*self.windowOfFilter
normFactor = self.nProfiles*self.nIncohInt*self.nCohInt*pwcode*self.windowOfFilter
return normFactor
def getFlagCspc(self):
if self.data_cspc == None:
return True
return False
def getFlagDc(self):
if self.data_dc == None:
return True
return False
nPairs = property(getNPairs, "I'm the 'nPairs' property.")
pairsIndexList = property(getPairsIndexList, "I'm the 'pairsIndexList' property.")
normFactor = property(getNormFactor, "I'm the 'getNormFactor' property.")
flag_cspc = property(getFlagCspc)
flag_dc = property(getFlagDc)
class SpectraHeis(JROData):
data_spc = None
data_cspc = None
data_dc = None
nFFTPoints = None
nPairs = None
pairsList = None
nIncohInt = None
def __init__(self):
self.radarControllerHeaderObj = RadarControllerHeader()
self.systemHeaderObj = SystemHeader()
self.type = "SpectraHeis"
self.dtype = None
# self.nChannels = 0
# self.nHeights = 0
self.nProfiles = None
self.heightList = None
self.channelList = None
# self.channelIndexList = None
self.flagNoData = True
self.flagTimeBlock = False
self.nPairs = 0
self.utctime = None
self.blocksize = None
class Fits:
heightList = None
channelList = None
flagNoData = True
flagTimeBlock = False
useLocalTime = False
utctime = None
timeZone = None
ippSeconds = None
timeInterval = None
nCohInt = None
nIncohInt = None
noise = None
windowOfFilter = 1
#Speed of ligth
C = 3e8
frequency = 49.92e6
realtime = False
def __init__(self):
self.type = "Fits"
self.nProfiles = None
self.heightList = None
self.channelList = None
# self.channelIndexList = None
self.flagNoData = True
self.utctime = None
self.nCohInt = None
self.nIncohInt = None
self.useLocalTime = True
# self.utctime = None
# self.timeZone = None
# self.ltctime = None
# self.timeInterval = None
# self.header = None
# self.data_header = None
# self.data = None
# self.datatime = None
# self.flagNoData = False
# self.expName = ''
# self.nChannels = None
# self.nSamples = None
# self.dataBlocksPerFile = None
# self.comments = ''
#
def getltctime(self):
if self.useLocalTime:
return self.utctime - self.timeZone*60
return self.utctime
def getDatatime(self):
datatime = datetime.datetime.utcfromtimestamp(self.ltctime)
return datatime
def getTimeRange(self):
datatime = []
datatime.append(self.ltctime)
datatime.append(self.ltctime + self.timeInterval)
datatime = numpy.array(datatime)
return datatime
def getHeiRange(self):
heis = self.heightList
return heis
def isEmpty(self):
return self.flagNoData
def getNHeights(self):
return len(self.heightList)
def getNChannels(self):
return len(self.channelList)
def getChannelIndexList(self):
return range(self.nChannels)
def getNoise(self, type = 1):
self.noise = numpy.zeros(self.nChannels)
if type == 1:
noise = self.getNoisebyHildebrand()
if type == 2:
noise = self.getNoisebySort()
if type == 3:
noise = self.getNoisebyWindow()
return noise
datatime = property(getDatatime, "I'm the 'datatime' property")
nHeights = property(getNHeights, "I'm the 'nHeights' property.")
nChannels = property(getNChannels, "I'm the 'nChannel' property.")
channelIndexList = property(getChannelIndexList, "I'm the 'channelIndexList' property.")
noise = property(getNoise, "I'm the 'nHeights' property.")
datatime = property(getDatatime, "I'm the 'datatime' property")
ltctime = property(getltctime, "I'm the 'ltctime' property")
ltctime = property(getltctime, "I'm the 'ltctime' property")
class AMISR:
def __init__(self):
self.flagNoData = True
self.data = None
self.utctime = None
self.type = "AMISR"
#propiedades para compatibilidad con Voltages
self.timeZone = 0#self.dataIn.timeZone
self.dstFlag = 0#self.dataIn.dstFlag
self.errorCount = 0#self.dataIn.errorCount
self.useLocalTime = True#self.dataIn.useLocalTime
self.radarControllerHeaderObj = None#self.dataIn.radarControllerHeaderObj.copy()
self.systemHeaderObj = None#self.dataIn.systemHeaderObj.copy()
self.channelList = [1]#self.dataIn.channelList esto solo aplica para el caso de AMISR
self.dtype = numpy.dtype([('real','<f4'),('imag','<f4')])
self.flagTimeBlock = None#self.dataIn.flagTimeBlock
#self.utctime = #self.firstdatatime
self.flagDecodeData = None#self.dataIn.flagDecodeData #asumo q la data esta decodificada
self.flagDeflipData = None#self.dataIn.flagDeflipData #asumo q la data esta sin flip
self.nCohInt = 1#self.dataIn.nCohInt
self.nIncohInt = 1
self.ippSeconds = 0.004#self.dataIn.ippSeconds, segun el filename/Setup/Tufile
self.windowOfFilter = None#self.dataIn.windowOfFilter
self.timeInterval = None#self.dataIn.timeInterval*self.dataOut.nFFTPoints*self.dataOut.nIncohInt
self.frequency = 20000000#self.dataIn.frequency
self.realtime = 0#self.dataIn.realtime
#actualizar en la lectura de datos
self.heightList = None#self.dataIn.heightList
self.nProfiles = None#self.dataOut.nFFTPoints
self.nBaud = None#self.dataIn.nBaud
self.nCode = None#self.dataIn.nCode
self.code = None#self.dataIn.code
def isEmpty(self):
return self.flagNoData