JMARKOV::JMarkovUniformIntegrator Class Reference

In this implementation of the JMarkovIntegrator interface, the sample distribution is a flat distribution. More...

#include <JMarkovIntegrator.hh>

Inheritance diagram for JMARKOV::JMarkovUniformIntegrator:

Public Member Functions
	JMarkovUniformIntegrator (JPosition3D _posmin, JPosition3D _posmax)
	constructor. More...
vector< double >	integrate (int N, int nscat, JSourceModel *src, JScatteringModel *sm, JTargetModel *trg, double lambda_abs)
	Integrate with N samples. More...
vector< double >	dummy_integrate (int N, int nscat, JSourceModel *src, JScatteringModel *sm, JTargetModel *trg, double lambda_abs)
	Integrate a test function with N samples. More...
vector< JPhotonPath >	get_diagnostic_ensemble (int N, int nscat, JSourceModel *src, JScatteringModel *sm, JTargetModel *trg, double lambda_abs)
	Return photon paths generated with the generatePath method. More...

Protected Member Functions
virtual JPosition3D	generatePosition (int nscat, int nv, double &winv)
	Generate a random position for vertex nv. More...
virtual JPhotonPath	generatePath (int nscat, double &winv)
	Generate a random photon path with a given number of scatterings. More...

Protected Attributes
JUniformGenerator	gen

Detailed Description

In this implementation of the JMarkovIntegrator interface, the sample distribution is a flat distribution.

Definition at line 173 of file JMarkovIntegrator.hh.

Constructor & Destructor Documentation

JMARKOV::JMarkovUniformIntegrator::JMarkovUniformIntegrator ( JPosition3D  _posmin, JPosition3D  _posmax  )

inline

constructor.

Posmin and posmax contain the minimal and maximal values of the coordinate in each direction.

Definition at line 180 of file JMarkovIntegrator.hh.

: gen(_posmin,_posmax) {}

Member Function Documentation

virtual JPosition3D JMARKOV::JMarkovUniformIntegrator::generatePosition ( int  nscat, int  nv, double &  winv  )

inlineprotectedvirtual

Generate a random position for vertex nv.

nv = 1 is the first scattering vertex, nv = 2 is the second scattering vertex etc.

So we require that 0 < nv <= nscat

winv has to be set to 1 over the probability density for this particular position. NOTE: this only works when the positions of each vertex are UNCORRELATED to each other (as in the default implementation of generatePath. If they are not, this method can be given a dummy implementation and be ignored.

Implements JMARKOV::JMarkovIntegrator.

Definition at line 184 of file JMarkovIntegrator.hh.

                                                                            {
      JPosition3D pos = gen.getPosition() ;
      winv = 1.0/gen.getWeight(pos) ;
      return pos ;
    }

vector< double > JMARKOV::JMarkovIntegrator::integrate ( int  N, int  nscat, JSourceModel *  src, JScatteringModel *  sm, JTargetModel *  trg, double  lambda_abs  )

inherited

Integrate with N samples.

Returns a vector with the contribution to the integral of each sample. The mean of those values is the estimate of the result of the integral, while the distribution itself can be used to estimate the stability of the result. In this distribution, you want to avoid

• long tails (because they make the result unstable)
• small contributions (because it means that parts of the parameter space are being oversampled, so it is less efficient) This can be achieved by tuning the sample distribution to the problem at hand.

Definition at line 130 of file JMarkovIntegrator.hh.

                                                                                                                                               {
    vector<double> contributions(N,-1) ;

    for( int i=0 ; i<N ; ++i ) {
      double winv ;
      JPhotonPath p = generatePath(nscat,winv) ;

      double rho = getPhotonPathProbabilityDensity(p,src,sm,trg,lambda_abs) ;
      contributions[i] = rho * winv ; 
    }
    return contributions ;
  }

vector< double > JMARKOV::JMarkovIntegrator::dummy_integrate ( int  N, int  nscat, JSourceModel *  src, JScatteringModel *  sm, JTargetModel *  trg, double  lambda_abs  )

inherited

Integrate a test function with N samples.

This can be used as a sanity check for derived classes of JMarkovIntegrator.

The integral should yield 1 when the complete relevant part of the volume is taken into account. If it does not, it may be a sign that the implementation is not correct.

Returns a vector with the contribution to the integral of each sample.

Definition at line 143 of file JMarkovIntegrator.hh.

                                                                                                                                                     {
    vector<double> contributions(N,-1) ;

    for( int i=0 ; i<N ; ++i ) {
      const double r = 10 ;
      double winv ;
      JPhotonPath p = generatePath(nscat,winv) ;
      double rho = 1.0/(4.0/3.0*M_PI*r*r*r) ;
      if( p[1].getLength()>r ) rho = 0 ;
      contributions[i] = rho * winv ; 
    }
    return contributions ;
  }

vector< JPhotonPath > JMARKOV::JMarkovIntegrator::get_diagnostic_ensemble ( int  N, int  nscat, JSourceModel *  src, JScatteringModel *  sm, JTargetModel *  trg, double  lambda_abs  )

inherited

Return photon paths generated with the generatePath method.

This can be used to identify the parts of parameter space that are over- or undersampled in a given problem so that the integrator may be optimized to handle those better.

Definition at line 157 of file JMarkovIntegrator.hh.

                                                                                                                                                                  {
    vector<JPhotonPath> paths ;

    for( int i=0 ; i<N ; ++i ) {
      double winv ;
      JPhotonPath p = generatePath(nscat,winv) ;
      paths.push_back(p) ;
    }
    return paths ;
  }

virtual JPhotonPath JMARKOV::JMarkovIntegrator::generatePath ( int  nscat, double &  winv  )

inlineprotectedvirtualinherited

Generate a random photon path with a given number of scatterings.

winv must be set to the inverted probability density to generate this particular path.

Definition at line 94 of file JMarkovIntegrator.hh.

                                                                {
      // this default implementation assumes that the vertex positions
      // are completely uncorrelated
      JPhotonPath p(nscat) ;
      double _winv = 1 ;
      for( int nv=0 ; nv<nscat+2 ; ++nv ) {
        double part_winv ;
        p[nv] = generatePosition( nscat, nv, part_winv ) ;
        _winv *= part_winv ;
      }
      winv = _winv ;
      return p ;
    }

Member Data Documentation

JUniformGenerator JMARKOV::JMarkovUniformIntegrator::gen

protected

Definition at line 190 of file JMarkovIntegrator.hh.

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The documentation for this class was generated from the following file:

• JMarkovIntegrator.hh