63 lines
2.0 KiB
C++
Executable File
63 lines
2.0 KiB
C++
Executable File
#pragma once
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#include "../particles/MyState.h"
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#include "BarometerObservation.h"
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//#include "barometric.h"
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//#include <KLib/math/distribution/Normal.h>
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static constexpr double g_BarometerObservation = 0.0;
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class BarometerEvaluation {
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public:
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double getProbability(const MyState& state, const BarometerObservation* obs) const {
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return 1;
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// //rho_z
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// double barometerSigma = 0.3;
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// //The height of the single floor levels.
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// const static double floor_height[3] = {4.1, 3.4, 3.4};
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// if(USE_BAROMETRIC_FORMULAR){
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// //height the particle has climbed.
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// double h_1 = 0.0;
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// for(int i = std::min(state.z_nr_old, state.z_nr); i < std::max(state.z_nr_old, state.z_nr); i++){
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// h_1 += floor_height[i];
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// }
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// if(h_1 != 0.0){
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// // use the barometric formular to calculate the relative pressure
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// // the calculation is done assuming sea level height at every floor.
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// double mslp = BarometricFormular::s_getSeaLevelPressure();
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// double pressure = BarometricFormular::s_getAtmosphericPressure(h_1, 297.0);
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// barometerSigma = std::abs(mslp - pressure);
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// }
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// }
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// else {
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// // constant value for sigma if we assume all floors are same in height
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// barometerSigma = 0.30 / 1.0; //hPa
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// }
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// // evaluate the current particle with a normal distribution
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// const double barometerProbability = K::NormalDistribution::getProbability(state.hPa, barometerSigma/2, obs->hpa);
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// //Just for the visualization. i'm a lazy bastard
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// g_BarometerObservation = obs->hpa;
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// assert(barometerProbability == barometerProbability);
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// assert(state.hPa == state.hPa);
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// assert(obs->hpa == obs->hpa);
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// //std::cout << barometerProbability << std::endl;
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// return pow(2.0, barometerProbability);
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// //return barometerProbability;
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}
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};
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