.TH "moeoIndicatorBasedFitnessAssignment" 3 "26 Jun 2007" "Version 1.0" "ParadisEO-MOEO" \" -*- nroff -*- .ad l .nh .SH NAME moeoIndicatorBasedFitnessAssignment \- Fitness assignment sheme based an Indicator proposed in: E. .PP .SH SYNOPSIS .br .PP \fC#include \fP .PP Inherits \fBmoeoFitnessAssignment< MOEOT >< MOEOT >\fP. .PP .SS "Public Types" .in +1c .ti -1c .RI "typedef MOEOT::ObjectiveVector \fBObjectiveVector\fP" .br .RI "\fIThe type of objective vector. \fP" .in -1c .SS "Public Member Functions" .in +1c .ti -1c .RI "\fBmoeoIndicatorBasedFitnessAssignment\fP (\fBmoeoNormalizedSolutionVsSolutionBinaryMetric\fP< \fBObjectiveVector\fP, double > &_metric, const double _kappa=0.05)" .br .RI "\fICtor. \fP" .ti -1c .RI "void \fBoperator()\fP (\fBeoPop\fP< MOEOT > &_pop)" .br .RI "\fISets the fitness values for every solution contained in the population _pop. \fP" .ti -1c .RI "void \fBupdateByDeleting\fP (\fBeoPop\fP< MOEOT > &_pop, \fBObjectiveVector\fP &_objVec)" .br .RI "\fIUpdates the fitness values of the whole population _pop by taking the deletion of the objective vector _objVec into account. \fP" .ti -1c .RI "double \fBupdateByAdding\fP (\fBeoPop\fP< MOEOT > &_pop, \fBObjectiveVector\fP &_objVec)" .br .RI "\fIUpdates the fitness values of the whole population _pop by taking the adding of the objective vector _objVec into account and returns the fitness value of _objVec. \fP" .in -1c .SS "Protected Member Functions" .in +1c .ti -1c .RI "void \fBsetup\fP (const \fBeoPop\fP< MOEOT > &_pop)" .br .RI "\fISets the bounds for every objective using the min and the max value for every objective vector of _pop. \fP" .ti -1c .RI "void \fBcomputeValues\fP (const \fBeoPop\fP< MOEOT > &_pop)" .br .RI "\fICompute every indicator value in values (values[i] = I(_v[i], _o)). \fP" .ti -1c .RI "void \fBsetFitnesses\fP (\fBeoPop\fP< MOEOT > &_pop)" .br .RI "\fISets the fitness value of the whple population. \fP" .ti -1c .RI "double \fBcomputeFitness\fP (const unsigned int _idx)" .br .RI "\fIReturns the fitness value of the _idx th individual of the population. \fP" .in -1c .SS "Protected Attributes" .in +1c .ti -1c .RI "\fBmoeoNormalizedSolutionVsSolutionBinaryMetric\fP< \fBObjectiveVector\fP, double > & \fBmetric\fP" .br .RI "\fIthe quality indicator \fP" .ti -1c .RI "double \fBkappa\fP" .br .RI "\fIthe scaling factor \fP" .ti -1c .RI "std::vector< std::vector< double > > \fBvalues\fP" .br .RI "\fIthe computed indicator values \fP" .in -1c .SH "Detailed Description" .PP .SS "template class moeoIndicatorBasedFitnessAssignment< MOEOT >" Fitness assignment sheme based an Indicator proposed in: E. Zitzler, S. Künzli, 'Indicator-Based Selection in Multiobjective Search', Proc. 8th International Conference on Parallel Problem Solving from Nature (PPSN VIII), pp. 832-842, Birmingham, UK (2004). This strategy is, for instance, used in IBEA. .PP Definition at line 29 of file moeoIndicatorBasedFitnessAssignment.h. .SH "Constructor & Destructor Documentation" .PP .SS "template \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::\fBmoeoIndicatorBasedFitnessAssignment\fP (\fBmoeoNormalizedSolutionVsSolutionBinaryMetric\fP< \fBObjectiveVector\fP, double > & _metric, const double _kappa = \fC0.05\fP)\fC [inline]\fP" .PP Ctor. .PP \fBParameters:\fP .RS 4 \fI_metric\fP the quality indicator .br \fI_kappa\fP the scaling factor .RE .PP .PP Definition at line 42 of file moeoIndicatorBasedFitnessAssignment.h. .SH "Member Function Documentation" .PP .SS "template void \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::operator() (\fBeoPop\fP< MOEOT > & _pop)\fC [inline, virtual]\fP" .PP Sets the fitness values for every solution contained in the population _pop. .PP \fBParameters:\fP .RS 4 \fI_pop\fP the population .RE .PP .PP Implements \fBeoUF< eoPop< MOEOT > &, void >\fP. .PP Definition at line 50 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::computeValues(), moeoIndicatorBasedFitnessAssignment< MOEOT >::setFitnesses(), and moeoIndicatorBasedFitnessAssignment< MOEOT >::setup(). .SS "template void \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::updateByDeleting (\fBeoPop\fP< MOEOT > & _pop, \fBObjectiveVector\fP & _objVec)\fC [inline, virtual]\fP" .PP Updates the fitness values of the whole population _pop by taking the deletion of the objective vector _objVec into account. .PP \fBParameters:\fP .RS 4 \fI_pop\fP the population .br \fI_objVec\fP the objective vector .RE .PP .PP Implements \fBmoeoFitnessAssignment< MOEOT >\fP. .PP Definition at line 66 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::kappa, and moeoIndicatorBasedFitnessAssignment< MOEOT >::metric. .SS "template double \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::updateByAdding (\fBeoPop\fP< MOEOT > & _pop, \fBObjectiveVector\fP & _objVec)\fC [inline]\fP" .PP Updates the fitness values of the whole population _pop by taking the adding of the objective vector _objVec into account and returns the fitness value of _objVec. .PP \fBParameters:\fP .RS 4 \fI_pop\fP the population .br \fI_objVec\fP the objective vector .RE .PP .PP Definition at line 87 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::kappa, and moeoIndicatorBasedFitnessAssignment< MOEOT >::metric. .SS "template void \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::setup (const \fBeoPop\fP< MOEOT > & _pop)\fC [inline, protected]\fP" .PP Sets the bounds for every objective using the min and the max value for every objective vector of _pop. .PP \fBParameters:\fP .RS 4 \fI_pop\fP the population .RE .PP .PP Definition at line 130 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::metric, and moeoNormalizedSolutionVsSolutionBinaryMetric< ObjectiveVector, R >::setup(). .PP Referenced by moeoIndicatorBasedFitnessAssignment< MOEOT >::operator()(). .SS "template void \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::computeValues (const \fBeoPop\fP< MOEOT > & _pop)\fC [inline, protected]\fP" .PP Compute every indicator value in values (values[i] = I(_v[i], _o)). .PP \fBParameters:\fP .RS 4 \fI_pop\fP the population .RE .PP .PP Definition at line 152 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::metric, and moeoIndicatorBasedFitnessAssignment< MOEOT >::values. .PP Referenced by moeoIndicatorBasedFitnessAssignment< MOEOT >::operator()(). .SS "template void \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::setFitnesses (\fBeoPop\fP< MOEOT > & _pop)\fC [inline, protected]\fP" .PP Sets the fitness value of the whple population. .PP \fBParameters:\fP .RS 4 \fI_pop\fP the population .RE .PP .PP Definition at line 174 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::computeFitness(). .PP Referenced by moeoIndicatorBasedFitnessAssignment< MOEOT >::operator()(). .SS "template double \fBmoeoIndicatorBasedFitnessAssignment\fP< MOEOT >::computeFitness (const unsigned int _idx)\fC [inline, protected]\fP" .PP Returns the fitness value of the _idx th individual of the population. .PP \fBParameters:\fP .RS 4 \fI_idx\fP the index .RE .PP .PP Definition at line 187 of file moeoIndicatorBasedFitnessAssignment.h. .PP References moeoIndicatorBasedFitnessAssignment< MOEOT >::kappa, and moeoIndicatorBasedFitnessAssignment< MOEOT >::values. .PP Referenced by moeoIndicatorBasedFitnessAssignment< MOEOT >::setFitnesses(). .SH "Author" .PP Generated automatically by Doxygen for ParadisEO-MOEO from the source code.