Python SixS.wavelength Examples

Example #1

    def test_6s_example1(self):
        # Implements Example_In_1.txt from the 6S distribution in Py6S
        # Tests against manual run of that file

        s = SixS()
        s.geometry = Geometry.User()
        s.geometry.solar_z = 40
        s.geometry.solar_a = 100
        s.geometry.view_z = 45
        s.geometry.view_a = 50
        s.geometry.month = 7
        s.geometry.day = 23

        s.atmos_profile = AtmosProfile.UserWaterAndOzone(3.0, 3.5)
        s.aero_profile = AeroProfile.User(dust=0.25,
                                          water=0.25,
                                          oceanic=0.25,
                                          soot=0.25)

        s.aot550 = 0.5
        s.altitudes.set_target_custom_altitude(0.2)
        s.altitudes.set_sensor_custom_altitude(3.3, aot=0.25)
        s.wavelength = Wavelength(PredefinedWavelengths.AVHRR_NOAA9_B1)

        s.ground_reflectance = GroundReflectance.HeterogeneousLambertian(
            0.5, GroundReflectance.ClearWater,
            GroundReflectance.GreenVegetation)

        s.atmos_corr = AtmosCorr.AtmosCorrBRDFFromReflectance(0.1)
        s.run()
        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               12.749,
                               delta=0.002)

Example #2

    def __init__(self,
                 bandnums,
                 wavelengths,
                 geometry,
                 date_time,
                 sensor=None):
        """ Run SixS atmospheric model using Py6S """
        start = datetime.datetime.now()
        VerboseOut('Running atmospheric model (6S)', 2)

        s = SixS()
        # Geometry
        s.geometry = Geometry.User()
        s.geometry.from_time_and_location(geometry['lat'], geometry['lon'],
                                          str(date_time), geometry['zenith'],
                                          geometry['azimuth'])
        s.altitudes = Altitudes()
        s.altitudes.set_target_sea_level()
        s.altitudes.set_sensor_satellite_level()

        doy = (date_time - datetime.datetime(date_time.year, 1, 1)).days + 1
        # Atmospheric profile
        s.atmos_profile = atmospheric_model(doy, geometry['lat'])

        # Aerosols
        # TODO - dynamically adjust AeroProfile?
        s.aero_profile = AeroProfile.PredefinedType(AeroProfile.Continental)

        self.aod = aodData.get_aod(geometry['lat'], geometry['lon'],
                                   date_time.date())
        s.aot550 = self.aod[1]

        # Other settings
        s.ground_reflectance = GroundReflectance.HomogeneousLambertian(
            GroundReflectance.GreenVegetation)
        s.atmos_corr = AtmosCorr.AtmosCorrLambertianFromRadiance(1.0)

        # Used for testing
        try:
            stdout = sys.stdout
            funcs = {
                'LT5': SixSHelpers.Wavelengths.run_landsat_tm,
                'LT7': SixSHelpers.Wavelengths.run_landsat_etm,
                # LC8 doesn't seem to work
                #'LC8': SixSHelpers.Wavelengths.run_landsat_oli
            }
            if sensor in funcs.keys():
                sys.stdout = open(os.devnull, 'w')
                wvlens, outputs = funcs[sensor](s)
                sys.stdout = stdout
            else:
                # Use wavelengths
                outputs = []
                for wv in wavelengths:
                    s.wavelength = Wavelength(wv[0], wv[1])
                    s.run()
                    outputs.append(s.outputs)
        except Exception, e:
            sys.stdout = stdout
            raise AtmCorrException("Error running 6S: %s" % e)

Example #3

File: atmosphere.py Project: indigo-ag/gips

    def __init__(self, bandnums, wavelengths, geometry, date_time, sensor=None):
        """ Run SixS atmospheric model using Py6S """
        start = datetime.datetime.now()
        verbose_out('Running atmospheric model (6S)', 2)

        s = SixS()
        # Geometry
        s.geometry = Geometry.User()
        s.geometry.from_time_and_location(geometry['lat'], geometry['lon'], str(date_time),
                                          geometry['zenith'], geometry['azimuth'])
        s.altitudes = Altitudes()
        s.altitudes.set_target_sea_level()
        s.altitudes.set_sensor_satellite_level()

        doy = (date_time - datetime.datetime(date_time.year, 1, 1)).days + 1
        # Atmospheric profile
        s.atmos_profile = atmospheric_model(doy, geometry['lat'])

        # Aerosols
        # TODO - dynamically adjust AeroProfile?
        s.aero_profile = AeroProfile.PredefinedType(AeroProfile.Continental)

        self.aod = aodData.get_aod(
            geometry['lat'], geometry['lon'], date_time.date()
        )

        # sixs throws IEEE_UNDERFLOW_FLAG IEEE_DENORMAL for small aod.
        # and if using a predefined AeroProfile, visible or aot550 must be
        # specified.   Small here was determined emprically on my laptop, and
        # visible = 1000 km is essentially setting the visibility to infinite.
        if self.aod[1] < 0.0103:
            s.visible = 1000
        else:
            s.aot550 = self.aod[1]

        # Other settings
        s.ground_reflectance = GroundReflectance.HomogeneousLambertian(GroundReflectance.GreenVegetation)
        s.atmos_corr = AtmosCorr.AtmosCorrLambertianFromRadiance(1.0)

        # Used for testing
        funcs = {
            'LT5': SixSHelpers.Wavelengths.run_landsat_tm,
            'LT7': SixSHelpers.Wavelengths.run_landsat_etm,
            # LC8 doesn't seem to work
            #'LC8': SixSHelpers.Wavelengths.run_landsat_oli
        }
        if sensor in funcs.keys():
            saved_stdout = sys.stdout
            try:
                sys.stdout = open(os.devnull, 'w')
                wvlens, outputs = funcs[sensor](s)
            finally:
                sys.stdout = saved_stdout
        else:
            # Use wavelengths
            outputs = []
            for wv in wavelengths:
                s.wavelength = Wavelength(wv[0], wv[1])
                s.run()
                outputs.append(s.outputs)

        self.results = {}
        verbose_out("{:>6} {:>8}{:>8}{:>8}".format('Band', 'T', 'Lu', 'Ld'), 4)
        for b, out in enumerate(outputs):
            t = out.trans['global_gas'].upward
            Lu = out.atmospheric_intrinsic_radiance
            Ld = (out.direct_solar_irradiance + out.diffuse_solar_irradiance + out.environmental_irradiance) / numpy.pi
            self.results[bandnums[b]] = [t, Lu, Ld]
            verbose_out("{:>6}: {:>8.3f}{:>8.2f}{:>8.2f}".format(bandnums[b], t, Lu, Ld), 4)

        verbose_out('Ran atmospheric model in %s' % str(datetime.datetime.now() - start), 2)

Example #4

    def test_wavelength_predefined(self):
        s = SixS()
        s.wavelength = Wavelength(PredefinedWavelengths.LANDSAT_TM_B1)
        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               138.126,
                               delta=0.002)

        s.wavelength = Wavelength(PredefinedWavelengths.MODIS_B6)
        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               17.917,
                               delta=0.002)

Example #5

    def test_specific_wavelength(self):
        s = SixS()
        s.wavelength = Wavelength(0.567)
        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               129.792,
                               delta=0.002)

Example #6

    def test_wavelength_filter(self):
        s = SixS()
        s.wavelength = Wavelength(0.400, 0.410, [0.7, 0.9, 1.0, 0.3, 1.0])
        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               109.435,
                               delta=0.002)

Example #7

    def test_wavelength_range(self):
        s = SixS()
        s.wavelength = Wavelength(0.5, 0.7)
        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               122.166,
                               delta=0.002)

Example #8

 def test_all_predefined_wavelengths(self):
     s = SixS()
     attribs = dir(PredefinedWavelengths)
     for wavelength in attribs:
         wv = eval("PredefinedWavelengths.%s" % wavelength)
         if type(wv) is tuple:
             print(wavelength)
             s.wavelength = Wavelength(wv)
             s.run()

Example #9

File: atmosphere.py Project: Applied-GeoSolutions/gips

    def __init__(self, bandnums, wavelengths, geometry, date_time, sensor=None):
        """ Run SixS atmospheric model using Py6S """
        start = datetime.datetime.now()
        VerboseOut('Running atmospheric model (6S)', 2)

        s = SixS()
        # Geometry
        s.geometry = Geometry.User()
        s.geometry.from_time_and_location(geometry['lat'], geometry['lon'], str(date_time),
                                          geometry['zenith'], geometry['azimuth'])
        s.altitudes = Altitudes()
        s.altitudes.set_target_sea_level()
        s.altitudes.set_sensor_satellite_level()

        doy = (date_time - datetime.datetime(date_time.year, 1, 1)).days + 1
        # Atmospheric profile
        s.atmos_profile = atmospheric_model(doy, geometry['lat'])

        # Aerosols
        # TODO - dynamically adjust AeroProfile?
        s.aero_profile = AeroProfile.PredefinedType(AeroProfile.Continental)

        self.aod = aodData.get_aod(geometry['lat'], geometry['lon'], date_time.date())
        s.aot550 = self.aod[1]

        # Other settings
        s.ground_reflectance = GroundReflectance.HomogeneousLambertian(GroundReflectance.GreenVegetation)
        s.atmos_corr = AtmosCorr.AtmosCorrLambertianFromRadiance(1.0)

        # Used for testing
        try:
            stdout = sys.stdout
            funcs = {
                'LT5': SixSHelpers.Wavelengths.run_landsat_tm,
                'LT7': SixSHelpers.Wavelengths.run_landsat_etm,
                # LC8 doesn't seem to work
                #'LC8': SixSHelpers.Wavelengths.run_landsat_oli
            }
            if sensor in funcs.keys():
                sys.stdout = open(os.devnull, 'w')
                wvlens, outputs = funcs[sensor](s)
                sys.stdout = stdout
            else:
                # Use wavelengths
                outputs = []
                for wv in wavelengths:
                    s.wavelength = Wavelength(wv[0], wv[1])
                    s.run()
                    outputs.append(s.outputs)
        except Exception, e:
            sys.stdout = stdout
            raise AtmCorrException("Error running 6S: %s" % e)

Example #10

    def test_hetero_ground_reflectance(self):
        s = SixS()
        s.altitudes.set_sensor_satellite_level()
        s.altitudes.set_target_sea_level()
        s.wavelength = Wavelength(PredefinedWavelengths.LANDSAT_ETM_B2)

        wavelengths = np.arange(0.5, 0.6, 0.025)
        ro_target = np.array([wavelengths, [1.0] * 4]).T
        ro_env = np.array([wavelengths, [0.5] * 4]).T

        s.ground_reflectance = GroundReflectance.HeterogeneousLambertian(
            0.3, ro_target, ro_env)

        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               271.377,
                               delta=0.002)

Example #11

    def test_6s_example2(self):
        # Implements Example_In_2.txt from the 6S distribution in Py6S
        # Tests against manual run of that file

        s = SixS()
        s.geometry = Geometry.User()
        s.geometry.solar_z = 0
        s.geometry.solar_a = 20
        s.geometry.view_z = 30
        s.geometry.view_a = 0
        s.geometry.month = 8
        s.geometry.day = 22

        s.atmos_profile = AtmosProfile.PredefinedType(
            AtmosProfile.NoGaseousAbsorption)

        s.aero_profile = AeroProfile.SunPhotometerDistribution(
            [
                0.050000001,
                0.065604001,
                0.086076997,
                0.112939,
                0.148184001,
                0.194428995,
                0.255104989,
                0.334715992,
                0.439173013,
                0.576227009,
                0.756052017,
                0.99199599,
                1.30157101,
                1.707757,
                2.24070191,
                2.93996596,
                3.85745192,
                5.06126022,
                6.64074516,
                8.71314526,
                11.4322901,
                15,
            ],
            [
                0.001338098,
                0.007492487,
                0.026454749,
                0.058904506,
                0.082712278,
                0.073251031,
                0.040950641,
                0.014576218,
                0.003672085,
                0.001576356,
                0.002422644,
                0.004472982,
                0.007452302,
                0.011037065,
                0.014523974,
                0.016981738,
                0.017641816,
                0.016284294,
                0.01335547,
                0.009732267,
                0.006301342,
                0.003625077,
            ],
            [1.47] * 20,
            [0.0093] * 20,
        )

        s.aot550 = 1.0
        s.altitudes.set_target_sea_level()
        s.altitudes.set_sensor_satellite_level()
        s.wavelength = Wavelength(0.550)
        s.ground_reflectance = GroundReflectance.HomogeneousRoujean(
            0.037, 0.0, 0.133)

        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               76.999,
                               delta=0.002)
        self.assertAlmostEqual(s.outputs.background_radiance,
                               10.017,
                               delta=0.002)

Example #12

    def test_6s_example4(self):
        s = SixS()

        s.geometry = Geometry.User()
        s.geometry.solar_z = 61.23
        s.geometry.solar_a = 18.78
        s.geometry.solar_a = 0
        s.geometry.view_z = 18.78
        s.geometry.view_a = 159.2
        s.geometry.month = 4
        s.geometry.day = 30

        s.atmos_profile = AtmosProfile.UserWaterAndOzone(0.29, 0.41)
        s.aero_profile = AeroProfile.PredefinedType(AeroProfile.Continental)

        s.aot550 = 0.14

        s.altitudes.set_target_sea_level()
        s.altitudes.set_sensor_satellite_level()

        s.wavelength = Wavelength(PredefinedWavelengths.AVHRR_NOAA11_B1)

        s.ground_reflectance = GroundReflectance.HomogeneousLambertian([
            0.827,
            0.828,
            0.828,
            0.827,
            0.827,
            0.827,
            0.827,
            0.826,
            0.826,
            0.826,
            0.826,
            0.825,
            0.826,
            0.826,
            0.827,
            0.827,
            0.827,
            0.827,
            0.828,
            0.828,
            0.828,
            0.829,
            0.829,
            0.828,
            0.826,
            0.826,
            0.825,
            0.826,
            0.826,
            0.826,
            0.827,
            0.827,
            0.827,
            0.826,
            0.825,
            0.826,
            0.828,
            0.829,
            0.830,
            0.831,
            0.833,
            0.834,
            0.835,
            0.836,
            0.836,
            0.837,
            0.838,
            0.838,
            0.837,
            0.836,
            0.837,
            0.837,
            0.837,
            0.840,
            0.839,
            0.840,
            0.840,
            0.841,
            0.841,
            0.841,
            0.841,
            0.842,
            0.842,
            0.842,
            0.842,
            0.843,
            0.842,
            0.843,
            0.843,
            0.843,
            0.843,
            0.843,
            0.843,
            0.841,
            0.841,
            0.842,
            0.842,
            0.842,
            0.842,
            0.842,
            0.841,
            0.840,
            0.841,
            0.838,
            0.839,
            0.837,
            0.837,
            0.836,
            0.832,
            0.832,
            0.830,
            0.829,
            0.826,
            0.826,
            0.824,
            0.821,
            0.821,
            0.818,
            0.815,
            0.813,
            0.812,
            0.811,
            0.810,
            0.808,
            0.807,
            0.807,
            0.812,
            0.808,
            0.806,
            0.807,
            0.807,
            0.807,
            0.807,
        ])

        s.run()

        self.assertAlmostEqual(s.outputs.apparent_radiance,
                               170.771,
                               delta=0.002)

Example #13

    def test_6s_example3(self):
        s = SixS()
        s.geometry = Geometry.Landsat_TM()
        s.geometry.month = 5
        s.geometry.day = 9
        s.geometry.gmt_decimal_hour = 11.222
        s.geometry.latitude = 40
        s.geometry.longitude = 30

        s.atmos_profile = AtmosProfile.PredefinedType(
            AtmosProfile.MidlatitudeSummer)

        s.aero_profile = AeroProfile.MultimodalLogNormalDistribution(0.001, 20)
        s.aero_profile.add_component(
            0.05,
            2.03,
            0.538,
            [
                1.508,
                1.500,
                1.500,
                1.500,
                1.500,
                1.500,
                1.500,
                1.500,
                1.495,
                1.490,
                1.490,
                1.490,
                1.486,
                1.480,
                1.470,
                1.460,
                1.456,
                1.443,
                1.430,
                1.470,
            ],
            [
                3.24e-07,
                3.0e-08,
                2.86e-08,
                2.51e-08,
                2.2e-08,
                2.0e-08,
                1.0e-08,
                1.0e-08,
                1.48e-08,
                2.0e-08,
                6.85e-08,
                1.0e-07,
                1.25e-06,
                3.0e-06,
                3.5e-04,
                6.0e-04,
                6.86e-04,
                1.7e-03,
                4.0e-03,
                1.4e-03,
            ],
        )
        s.aero_profile.add_component(
            0.0695,
            2.03,
            0.457,
            [
                1.452,
                1.440,
                1.438,
                1.433,
                1.432,
                1.431,
                1.431,
                1.430,
                1.429,
                1.429,
                1.429,
                1.428,
                1.427,
                1.425,
                1.411,
                1.401,
                1.395,
                1.385,
                1.364,
                1.396,
            ],
            [
                1.0e-08,
                1.0e-08,
                1.0e-08,
                1.0e-08,
                1.0e-08,
                1.0e-08,
                1.0e-08,
                1.0e-08,
                1.38e-08,
                1.47e-08,
                1.68e-08,
                1.93e-08,
                4.91e-08,
                1.75e-07,
                9.66e-06,
                1.94e-04,
                3.84e-04,
                1.12e-03,
                2.51e-03,
                1.31e-01,
            ],
        )
        s.aero_profile.add_component(
            0.4,
            2.03,
            0.005,
            [
                1.508,
                1.500,
                1.500,
                1.500,
                1.500,
                1.500,
                1.500,
                1.500,
                1.495,
                1.490,
                1.490,
                1.490,
                1.486,
                1.480,
                1.470,
                1.460,
                1.456,
                1.443,
                1.430,
                1.470,
            ],
            [
                3.24e-07,
                3.0e-08,
                2.86e-08,
                2.51e-08,
                2.2e-08,
                2.0e-08,
                1.0e-08,
                1.0e-08,
                1.48e-08,
                2.0e-08,
                6.85e-08,
                1.0e-07,
                1.25e-06,
                3.0e-06,
                3.5e-04,
                6.0e-04,
                6.86e-04,
                1.7e-03,
                4.0e-03,
                1.4e-03,
            ],
        )

        s.aot550 = 0.8

        s.altitudes.set_target_custom_altitude(2)
        s.altitudes.set_sensor_satellite_level()

        s.wavelength = Wavelength(PredefinedWavelengths.MODIS_B4)

        s.ground_reflectance = GroundReflectance.HomogeneousOcean(
            11, 30, 35, 3)

        s.run()

        self.assertAlmostEqual(s.outputs.apparent_reflectance,
                               0.1234623,
                               delta=0.002)