diff --git a/Applications/Radiometry/otbOpticalCalibration.cxx b/Applications/Radiometry/otbOpticalCalibration.cxx
index b873e4eb82c720a61d78e8875476bc1faac6c5d5..dda196c4a75d4299023f06aa8ee3c108f7f81e2f 100644
--- a/Applications/Radiometry/otbOpticalCalibration.cxx
+++ b/Applications/Radiometry/otbOpticalCalibration.cxx
@@ -61,7 +61,7 @@ namespace otb
typedef ImageToLuminanceImageFilter<UInt16VectorImageType,
DoubleVectorImageType> ImageToLuminanceImageFilterType;
-
+
typedef LuminanceToReflectanceImageFilter<DoubleVectorImageType,
DoubleVectorImageType> LuminanceToReflectanceImageFilterType;
@@ -79,14 +79,14 @@ namespace otb
void DoInit()
{
SetName("OpticalCalibration");
- SetDescription("Perform optical calibration TOA/TOC (Top Of Atmosphere/Top Of Canopy). Supported sensors: QuickBird, Ikonos, WorldView2, Formosat, Spot5");
+ SetDescription("Perform optical calibration TOA/TOC (Top Of Atmosphere/Top Of Canopy). Supported sensors: QuickBird, Ikonos, WorldView2, Formosat, Spot5, Pleiades");
// Documentation
SetDocName("Optical calibration");
SetDocLongDescription("The application allows to convert pixel values from DN (for Digital Numbers) to physically interpretable and comparable values. Calibrated values are called surface reflectivity and its values lie in the range [0, 1].\nThe first level is called Top Of Atmosphere (TOA) reflectivity. It takes into account the sensor gain, sensor spectral response and the solar illumination.\nThe second level is called Top Of Canopy (TOC) reflectivity. In addition to sensor gain and solar illumination, it takes into account the optical thickness of the atmosphere, the atmospheric pressure, the water vapor amount, the ozone amount, as well as the composition and amount of aerosol gasses.\nIt is also possible to indicate an AERONET file which contains atmospheric parameters (version 1 and version 2 of Aeronet file are supported.");
SetDocLimitations("None");
SetDocAuthors("OTB-Team");
SetDocSeeAlso("The OTB CookBook");
-
+
AddDocTag(Tags::Calibration);
AddParameter(ParameterType_InputImage, "in", "Input");
@@ -126,13 +126,13 @@ namespace otb
AddParameter(ParameterType_Float, "atmo.oz", "Ozone Amount");
SetParameterDescription("atmo.oz", "Ozone Amount");
-
+
AddParameter(ParameterType_Float, "atmo.wa", "Water Vapor Amount");
SetParameterDescription("atmo.wa", "Water Vapor Amount (in saturation fraction of water)");
-
+
AddParameter(ParameterType_Float, "atmo.pressure", "Atmospheric Pressure");
SetParameterDescription("atmo.pressure", "Atmospheric Pressure (in hPa)");
-
+
AddParameter(ParameterType_Float, "atmo.opt", "Aerosol Optical Thickness");
SetParameterDescription("atmo.opt", "Aerosol Optical Thickness");
@@ -180,7 +180,7 @@ namespace otb
// LuminanceToReflectance
lImageMetadataInterface->GetDay();
lImageMetadataInterface->GetMonth();
-
+
lImageMetadataInterface->GetSolarIrradiance();
lImageMetadataInterface->GetSunElevation();
@@ -233,7 +233,7 @@ namespace otb
m_AtmosphericParam->SetWaterVaporAmount(GetParameterFloat("atmo.wa"));
m_AtmosphericParam->SetAtmosphericPressure(GetParameterFloat("atmo.pressure"));
m_AtmosphericParam->SetAerosolOptical(GetParameterFloat("atmo.opt"));
-
+
// Relative Spectral Response File
if (IsParameterEnabled("rsr"))
{
@@ -242,6 +242,9 @@ namespace otb
else
{
m_ReflectanceToSurfaceReflectanceFilter->SetFilterFunctionCoef(lImageMetadataInterface->GetSpectralSensitivity());
+ OpticalImageMetadataInterface::WavelengthSpectralBandVectorType tmp = lImageMetadataInterface->GetSpectralSensitivity();
+ std::cout << "ICI" << std::endl;
+ std::cout << "tmp->GetNthElement(0)->GetFilterFunctionValues()[0] " << tmp->GetNthElement(0)->GetFilterFunctionValues()[0] << std::endl;
}
// Aeronet file