///\param lTime The sampler iteration.
///\param pFrom The particle to move.
///\param pRng A random number generator.
void fMove(long lTime, smc::particle<State> & pFrom, smc::rng *pRng)
{
State *to = pFrom.GetValuePointer();
int lineFieldAtPrevTime = to->lineField[0];
// probability of a value which lineField0 takes is proportional to exp(-beta*KronekkerDelta(lineField0 + lineField1, 2))
double normalizationConstant, probOfNoEdge;
if(lineFieldAtPrevTime == 0){
// no edge at previous time
normalizationConstant = 1 + 1;
} else {
normalizationConstant = 1 + exp(-to->beta);
}
probOfNoEdge = 1 / normalizationConstant;
// transition
to->lineField[1] = to->lineField[0];
if(pRng->UniformS() < probOfNoEdge){
to->lineField[0] = 0;
} else {
to->lineField[0] = 1;
}
to->alpha += pRng->Normal(0, alpha0 / 100.0);
to->beta += pRng->Normal(0, beta0 / 100.0);
to->gamma += pRng->Normal(0, gamma0 / 100.0);
pFrom.AddToLogWeight(logLikelihood(lTime, *to));
}
///\param lTime The sampler iteration.
///\param pFrom The particle to move.
///\param pRng A random number generator.
void fMove(long lTime, smc::particle<double> & pFrom, smc::rng *pRng) {
double *to = pFrom.GetValuePointer();
double x = 0.5 * (*to) + 25.0*(*to) / (1.0 + (*to) * (*to)) + 8.0 * cos(1.2 * ( lTime)) + pRng->Normal(0.0,std_x);
*to = x;
pFrom.AddToLogWeight(logLikelihood(lTime, *to));
}
