libotb-dev 6.4.0+dfsg-1 / usr / include / OTB-6.4 / otbSinclairToReciprocalCircularCovarianceMatrixFunctor.h

/*
 * Copyright (C) 2005-2017 Centre National d'Etudes Spatiales (CNES)
 *
 * This file is part of Orfeo Toolbox
 *
 *     https://www.orfeo-toolbox.org/
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

#ifndef otbSinclairToReciprocalCircularCovarianceMatrixFunctor_h
#define otbSinclairToReciprocalCircularCovarianceMatrixFunctor_h

#include "vcl_complex.h"
#include "otbSinclairToReciprocalCovarianceMatrixFunctor.h"

namespace otb
{
namespace Functor
{
/** \class SinclairToReciprocalCircularCovarianceMatrixFunctor
 *  \brief Construct the fully reciprocal polarimetric circular covariance matrix
 *  with Sinclair matrix information.
 *
 *  Output value are:
 *  - channel #0 : \f$ S_{ll}.S_{ll}^{*} \f$
 *  - channel #1 : \f$ S_{ll}.S_{lr}^{*} \f$
 *  - channel #2 : \f$ S_{ll}.S_{rr}^{*} \f$
 *  - channel #3 : \f$ S_{lr}.S_{lr}^{*} \f$
 *  - channel #4 : \f$ S_{lr}.S_{rr}^{*} \f$
 *  - channel #5 : \f$ S_{rr}.S_{rr}^{*} \f$
 *
 * This is a adaptation of the SinclairToCircularCovarianceMatrixFunctor, where \f$ S_{hv}=S_{vh} \f$.
 *
 * The output pixel has 6 channels : the diagonal and the upper element of the reciprocal matrix.
 * Element are stored from left to right, line by line.
 *
 *  \ingroup Functor
 *  \ingroup SARPolarimetry
 *
 *  \sa SinclairToCircularCovarianceMatrixFunctor
 *  \sa SinclairImageFilter
 *  \sa SinclairToCoherencyMatrixFunctor
 *  \sa SinclairToCovarianceMatrixFunctor
 *  \sa SinclairToMuellerMatrixFunctor
 *  \sa SinclairToReciprocalCoherencyMatrixFunctor
 *  \sa SinclairToReciprocalCovarianceMatrixFunctor
 *
 *
 * \ingroup OTBPolarimetry
 */
template <class TInput1, class TInput2, class TInput3, class TOutput>
class SinclairToReciprocalCircularCovarianceMatrixFunctor
{
public:
  /** Some typedefs. */
  typedef double                                   RealType;
  typedef std::complex <RealType>                  ComplexType;
  typedef typename TOutput::ValueType              OutputValueType;
  typedef SinclairToReciprocalCovarianceMatrixFunctor<ComplexType, ComplexType, ComplexType, TOutput> SinclairToReciprocalCovarianceFunctorType;

  inline TOutput operator ()(const TInput1& Shh, const TInput2& Shv, const TInput3& Svv)
  {
    TOutput result;

    result.SetSize(m_NumberOfComponentsPerPixel);


    const ComplexType S_hh = static_cast<ComplexType>(Shh);
    const ComplexType S_hv = static_cast<ComplexType>(Shv);
    const ComplexType S_vv = static_cast<ComplexType>(Svv);

    const ComplexType coef(0.5);

    const ComplexType j2S_hv = S_hv * ComplexType(0.0, 2.0);
    const ComplexType jS_hh = S_hh * ComplexType(0.0, 1.0);
    const ComplexType jS_vv = S_vv * ComplexType(0.0, 1.0);


    const ComplexType Sll = coef * ( S_hh+j2S_hv-S_vv );
    const ComplexType Slr = coef * ( jS_hh + jS_vv );
    const ComplexType Srr = coef * ( -S_hh+j2S_hv+S_vv );


    SinclairToReciprocalCovarianceFunctorType funct;
    return ( funct(Sll, Slr, Srr ) );
  }

  unsigned int GetNumberOfComponentsPerPixel()
  {
    return m_NumberOfComponentsPerPixel;
  }

  /** Constructor */
  SinclairToReciprocalCircularCovarianceMatrixFunctor() : m_NumberOfComponentsPerPixel(6) {}

  /** Destructor */
  virtual ~SinclairToReciprocalCircularCovarianceMatrixFunctor() {}

protected:


private:
    unsigned int m_NumberOfComponentsPerPixel;
};

} // namespace Functor
} // namespace otb

#endif