Orfeo Toolbox  4.0
Classes
Radiometry modules
+ Collaboration diagram for Radiometry modules:

Classes

class  otb::Functor::ARVI< TInput1, TInput2, TInput3, TOutput >
 This functor computes the Atmospherically Resistant Vegetation Index (ARVI) More...
 
class  otb::AtmosphericCorrectionParameters
 This class contains all atmospheric correction parameters. More...
 
class  otb::AtmosphericCorrectionParametersTo6SAtmosphericRadiativeTerms
 This class computes the atmospheric radiative terms with 6S. More...
 
class  otb::AtmosphericRadiativeTerms
 This class is a vector of AtmosphericRadiativeTermsSingleChannel, it contains all atmospheric radiative terms for each studied channel. More...
 
class  otb::AtmosphericRadiativeTermsSingleChannel
 This class contains all atmospheric radiative terms for one channel. More...
 
class  otb::Functor::AVI< TInput1, TInput2, TInput3, TOutput >
 This functor computes the Angular Vegetation Index (AVI) More...
 
class  otb::Functor::LandsatTM::BarrenLandOrBuiltUpOrCloudsSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::BIO< TInput, TOutput >
 
class  otb::Functor::LandsatTM::Bright< TInput, TOutput >
 
class  otb::Functor::ComputeNeighborhoodContributionFunctor< TNeighIter, TOutput >
 Unary neighborhood functor to compute the value of a pixel which is a sum of the surrounding pixels value ponderated by a coefficient. More...
 
class  otb::DEMCaracteristicsExtractor< TInputImage, TOutputImage >
 Calculates the slope, the orientation incidence and exitance radius values for each pixel. More...
 
class  otb::Functor::LandsatTM::DominantBlueSpectralRule< TInput, TOutput >
 
class  otb::Functor::EVI< TInput1, TInput2, TInput3, TOutput >
 This functor computes the Enhanced Vegetation Index (EVI) More...
 
class  otb::Functor::LandsatTM::FlatResponseBarrenLandOrBuiltUpSpectralRule< TInput, TOutput >
 
class  otb::Functor::GAndRAndNirIndexBase< TInput1, TInput2, TInput3, TOutput >
 Base class for Green And Red And NIR channels of Spot Images. More...
 
class  otb::Functor::GAndRIndexBase< TInput1, TInput2, TOutput >
 Base class for Green And Red channels of Spot Images XS1 corresponds to the green channel XS2 corresponds to the red channel XS3 corresponds to the Nir channel XS4 corresponds to the Mir channel (for Spot 4 & 5) Implement operators for UnaryFunctorImageFilter templated with a VectorImage and BinaryFunctorImageFilter templated with single images. Subclasses should NOT overload operators, they must re-implement the Evaluate() method. More...
 
class  otb::GAndRIndexImageFilter< TInputImageG, TInputImageR, TOutputImage, TFunction >
 TODO. More...
 
class  otb::Functor::GEMI< TInput1, TInput2, TOutput >
 This functor computes the Global Environment Monitoring Index (GEMI) More...
 
class  otb::Functor::IB< TInput1, TInput2, TOutput >
 This functor computes the Brilliance Index (IB) More...
 
class  otb::Functor::IB2< TInput1, TInput2, TInput3, TOutput >
 This functor computes the Brilliance Index (IB2) More...
 
class  otb::Functor::IC< TInput1, TInput2, TOutput >
 This functor computes the Color Index (IC) More...
 
class  otb::ImageToLuminanceImageFilter< TInputImage, TOutputImage >
 Convert a raw value into a luminance value. More...
 
class  otb::Functor::ImageToLuminanceImageFunctor< TInput, TOutput >
 Add beta to the quotient Input over alpha. More...
 
class  otb::ImageToReflectanceImageFilter< TInputImage, TOutputImage >
 Convert a raw value into a reflectance value. More...
 
class  otb::Functor::ImageToReflectanceImageFunctor< TInput, TOutput >
 Call the ImageToLuminanceFunctor over the input and the LuminanceToReflectanceFunctor to this result. More...
 
class  otb::Functor::IPVI< TInput1, TInput2, TOutput >
 This functor computes the Infrared Percentage Vegetation Index (IPVI) More...
 
class  otb::Functor::IR< TInput1, TInput2, TOutput >
 This functor computes the Redness Index (IR) More...
 
class  otb::Functor::ISU< TInput1, TInput2, TOutput >
 This functor computes the Index surfaces built (ISU) More...
 
class  otb::Functor::LandsatTM::KernelSpectralRule< TInput, TOutput >
 
class  otb::Functor::LAIFromNDVIFormosat2Functor< TInput1, TInput2, TOutput >
 use red and nir image band to compute LAI image using formula a*(exp(nir-red)/((red+nir)*b)-exp(c*b)); with a = 0.1519 b = 3.9443 c = 0.13 this formula is only valid for Formosat 2 reflectance TOC More...
 
class  otb::Functor::LAIFromNDVILogarithmic< TInput1, TInput2, TOutput >
 computes the LAI from NDVI More...
 
class  otb::Functor::LAIFromReflectancesLinear< TInput1, TInput2, TOutput >
 computes the LAI from reflectances More...
 
class  otb::Functor::LandsatTM::LandsatTMIndex< TInput, TOutput >
 
class  otb::Functor::LandsatTM::LandsatTMIndexBase< TInput, TOutput >
 Base class for Landsat-TM indices. More...
 
class  LandsatTMLinguisticVariables
 
class  otb::LuminanceToReflectanceImageFilter< TInputImage, TOutputImage >
 Convert luminance value into reflectance value. More...
 
class  otb::Functor::LuminanceToReflectanceImageFunctor< TInput, TOutput >
 Compupute reflectance from the luminance value. More...
 
class  otb::Functor::LandsatTM::MIR1< TInput, TOutput >
 
class  otb::Functor::LandsatTM::MIR2< TInput, TOutput >
 
class  otb::Functor::LandsatTM::MIRTIR< TInput, TOutput >
 
class  otb::Functor::MNDWI< TInput1, TInput2, TOutput >
 This functor computes the Modified Normalized Difference Water Index (MNDWI) More...
 
class  otb::Functor::MSAVI< TInput1, TInput2, TOutput >
 This functor computes the Modified Soil Adjusted Vegetation Index (MSAVI) More...
 
class  otb::Functor::MSAVI2< TInput1, TInput2, TOutput >
 This functor computes the Modified Soil Adjusted Vegetation Index (MSAVI2) More...
 
class  otb::MultiChannelGAndRIndexImageFilter< TInputImage, TOutputImage, TFunction >
 Implements multi channel G and R pixel-wise generic index operation on one vector image. More...
 
class  otb::MultiChannelRadiometricImageFilter< TInputImage, TOutputImage, TFunction >
 Implements multi channel radiometric indices operation on one vector image. More...
 
class  otb::MultiChannelRAndBAndNIRIndexImageFilter< TInputImage, TOutputImage, TFunction >
 Implements multi channel R and B and NIR pixel-wise generic index operation on one vector image. More...
 
class  otb::MultiChannelRAndGAndNIRIndexImageFilter< TInputImage, TOutputImage, TFunction >
 Implements multi channel R and G and NIR pixel-wise generic index operation on one vector image. More...
 
class  otb::MultiChannelRAndNIRIndexImageFilter< TInputImage, TOutputImage, TFunction >
 Implements multi channel R and NIR pixel-wise generic index operation on one vector image. More...
 
class  otb::Functor::LandsatTM::NDBBBI< TInput, TOutput >
 
class  otb::Functor::NDBI< TInput1, TInput2, TOutput >
 This functor computes the Normalized Difference Built Up Index (NDBI) More...
 
class  otb::Functor::LandsatTM::NDBSI< TInput, TOutput >
 
class  otb::Functor::NDPI< TInput1, TInput2, TOutput >
 This functor computes the Normalized Difference Pond Index (NDPI) More...
 
class  otb::Functor::LandsatTM::NDSI< TInput, TOutput >
 
class  otb::Functor::LandsatTM::NDSIVis< TInput, TOutput >
 
class  otb::Functor::NDTI< TInput1, TInput2, TOutput >
 This functor computes the Normalized Difference Turbidity Index (NDTI) More...
 
class  otb::Functor::LandsatTM::NDVI< TInput, TOutput >
 
class  otb::Functor::NDWI< TInput1, TInput2, TOutput >
 This functor computes the Normalized Difference Water Index (NDWI) More...
 
class  otb::Functor::NDWI2< TInput1, TInput2, TOutput >
 This functor computes the Normalized Difference Water Index (NDWI2) More...
 
class  otb::Functor::LandsatTM::NIR< TInput, TOutput >
 
class  otb::Functor::LandsatTM::PitbogOrGreenhouseSpectralRule< TInput, TOutput >
 
class  otb::Functor::PVI< TInput1, TInput2, TOutput >
 This functor computes the Perpendicular Vegetation Index (PVI) More...
 
class  otb::Functor::RAndBAndNIRIndexBase< TInput1, TInput2, TInput3, TOutput >
 base class for R, B And NIR based Index Implement operators for UnaryFunctorImageFilter templated with a VectorImage and BinaryFunctorImageFilter templated with single images. Subclasses should NOT overload operators, they must re-implement the Evaluate() method. More...
 
class  otb::RAndBAndNIRIndexImageFilter< TInputImageR, TInputImageB, TInputImageNIR, TOutputImage, TFunction >
 TODO. More...
 
class  otb::Functor::RAndGAndNIRIndexBase< TInput1, TInput2, TInput3, TOutput >
 base class for R, G And NIR based Index Implement operators for UnaryFunctorImageFilter templated with a VectorImage and BinaryFunctorImageFilter templated with single images. Subclasses should NOT overload operators, they must re-implement the Evaluate() method. More...
 
class  otb::RAndGAndNIRIndexImageFilter< TInputImageR, TInputImageG, TInputImageNIR, TOutputImage, TFunction >
 TODO. More...
 
class  otb::Functor::RAndNIRIndexBase< TInput1, TInput2, TOutput >
 Base class for R And NIR based Index. More...
 
class  otb::RAndNIRIndexImageFilter< TInputImageR, TInputImageNIR, TOutputImage, TFunction >
 TODO. More...
 
class  otb::Functor::LandsatTM::RangelandSpectralRule< TInput, TOutput >
 
class  otb::ReflectanceToSurfaceReflectanceImageFilter< TInputImage, TOutputImage >
 Calculates the slope, the orientation incidence and exitance radius values for each pixel. More...
 
class  otb::Functor::ReflectanceToSurfaceReflectanceImageFunctor< TInput, TOutput >
 Compute the surface reflectance pixel from a TOA reflectance. More...
 
class  otb::Functor::RVI< TInput1, TInput2, TOutput >
 This functor computes the Ratio Vegetation Index (RVI) More...
 
class  otb::Functor::SAVI< TInput1, TInput2, TOutput >
 This functor computes the Soil Adjusted Vegetation Index (SAVI) More...
 
class  otb::Functor::LandsatTM::ShadowCloudOrSnowSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::ShadowWithBarrenLandSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::ShadowWithVegetationSpectralRule< TInput, TOutput >
 
class  otb::SIXSTraits
 SIXSTraits operations. More...
 
class  otb::Functor::LandsatTM::SnowOrIceSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::SpectralRuleBasedClassifier< TInput, TOutput >
 Implementation of the SpectralRuleBasedClassifier for Landsat TM image land cover classification as described in table IV of Baraldi et al. 2006, "Automatic Spectral Rule-Based Preliminary Mapping of Calibrated Landsat TM and ETM+ Images", IEEE Trans. on Geoscience and Remote Sensing, vol 44, no 9. This classifier assumes that the input image is calibrated in reflectances and in temperature. The reflectances can be given in the 0-1 range (Normalized) or in 0-1000 (Thousands). Temperatures can be given in Kelvin, in Kelvin*100 or in Celsius. Appropriate accessors are available for setting these units. More...
 
class  otb::Functor::SRWI< TInput1, TInput2, TOutput >
 This functor computes the Simple Ratio Water Index (SRWI) More...
 
class  otb::SurfaceAdjacencyEffect6SCorrectionSchemeFilter< TInputImage, TOutputImage >
 Correct the scheme taking care of the surrounding pixels. More...
 
class  otb::SurfaceReflectanceToReflectanceFilter< TInputImage, TOutputImage >
 Calculates the slope, the orientation incidence and exitance radius values for each pixel. More...
 
class  otb::Functor::TerraSarBrightnessFunctor< TInput, TOutput >
 Compute beta naught coefficient. More...
 
class  otb::TerraSarBrightnessImageFilter< TInputImage, TOutputImage >
 Calculates the brightness of TerraSar sensor images. More...
 
class  otb::Functor::LandsatTM::ThickCloudsSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::ThinCloudsSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::TIR< TInput, TOutput >
 
class  otb::Functor::TM4AndTM5IndexBase< TInput1, TInput2, TOutput >
 Base class for TM4 And TM5 channels of Land Sat (equivalent to Red and NIR of SPOT5) More...
 
class  otb::Functor::TNDVI< TInput1, TInput2, TOutput >
 This functor computes the Transformed NDVI (TNDVI) More...
 
class  otb::Functor::TSARVI< TInput1, TInput2, TInput3, TOutput >
 This functor computes the Transformed Soil Atmospherical Resistant Vegetation Index (TSARVI) More...
 
class  otb::Functor::TSAVI< TInput1, TInput2, TOutput >
 This functor computes the Transformed Soil Adjusted Vegetation Index (TSAVI) More...
 
class  otb::Functor::LandsatTM::VegetationSpectralRule< TInput, TOutput >
 
class  otb::Functor::LandsatTM::Vis< TInput, TOutput >
 
class  otb::Functor::WaterIndexBase< TInput1, TInput2, TOutput >
 Base class. More...
 
class  otb::Functor::WaterIndexFunctor< TInput1, TInput2, TOutput >
 This functor will be used for most of water index functors. More...
 
class  otb::Functor::LandsatTM::WaterOrShadowSpectralRule< TInput, TOutput >
 
class  otb::Functor::WaterSqrtSpectralAngleFunctor< TInputVectorPixel, TOutputPixel >
 This functor uses a spectral angle with a particular reference pixel. More...
 
class  otb::Functor::WDVI< TInput1, TInput2, TOutput >
 This functor computes the Weighted Difference Vegetation Index (WDVI) More...
 
class  otb::Functor::LandsatTM::WetlandSpectralRule< TInput, TOutput >
 

Detailed Description

This category includes the elements related to the radiometry processing of the image.


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