Eclipse SUMO - Simulation of Urban MObility
MSCFModel_KraussPS.cpp
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1 /****************************************************************************/
2 // Eclipse SUMO, Simulation of Urban MObility; see https://eclipse.dev/sumo
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12 // SPDX-License-Identifier: EPL-2.0 OR GPL-2.0-or-later
13 /****************************************************************************/
22 // Krauss car-following model, changing accel and speed by slope
23 /****************************************************************************/
24 #include <config.h>
25 
26 #include <utils/geom/GeomHelper.h>
27 #include <microsim/MSVehicle.h>
28 #include <microsim/MSLane.h>
29 #include "MSCFModel_KraussPS.h"
30 
31 
32 // ===========================================================================
33 // method definitions
34 // ===========================================================================
35 MSCFModel_KraussPS::MSCFModel_KraussPS(const MSVehicleType* vtype) :
36  MSCFModel_Krauss(vtype) {
37 }
38 
39 
40 MSCFModel_KraussPS::~MSCFModel_KraussPS() {}
41 
42 
43 double
44 MSCFModel_KraussPS::maxNextSpeed(double speed, const MSVehicle* const veh) const {
45  const double aMax = MAX2(0., getMaxAccel() - GRAVITY * sin(DEG2RAD(veh->getSlope())));
46  // assuming drag force is proportional to the square of speed
47  const double vMax = MAX2(
48  sqrt(aMax / getMaxAccel()) * myType->getMaxSpeed(),
49  // prevent emergency braking when inclination changes suddenly (momentum)
50  speed - ACCEL2SPEED(getMaxDecel()));
51  return MAX2(
52  // prevent stalling at low speed
53  getMaxAccel() / 2,
54  MIN2(speed + ACCEL2SPEED(aMax), vMax));
55 }
56 
57 
58 MSCFModel*
59 MSCFModel_KraussPS::duplicate(const MSVehicleType* vtype) const {
60  return new MSCFModel_KraussPS(vtype);
61 }
62 
63 
64 /****************************************************************************/
DEG2RAD
#define DEG2RAD(x)
Definition: GeomHelper.h:35
GRAVITY
#define GRAVITY
Definition: GeomHelper.h:37
MSCFModel_KraussPS.h
ACCEL2SPEED
#define ACCEL2SPEED(x)
Definition: SUMOTime.h:51
MIN2
T MIN2(T a, T b)
Definition: StdDefs.h:76
MAX2
T MAX2(T a, T b)
Definition: StdDefs.h:82
MSCFModel_Krauss
Krauss car-following model, with acceleration decrease and faster start.
Definition: MSCFModel_Krauss.h:37
MSCFModel_KraussPS::MSCFModel_KraussPS
MSCFModel_KraussPS(const MSVehicleType *vtype)
Constructor.
Definition: MSCFModel_KraussPS.cpp:35
MSCFModel_KraussPS::~MSCFModel_KraussPS
~MSCFModel_KraussPS()
Destructor.
Definition: MSCFModel_KraussPS.cpp:40
MSCFModel_KraussPS::duplicate
MSCFModel * duplicate(const MSVehicleType *vtype) const
Duplicates the car-following model.
Definition: MSCFModel_KraussPS.cpp:59
MSCFModel_KraussPS::maxNextSpeed
double maxNextSpeed(double speed, const MSVehicle *const veh) const
Returns the maximum speed given the current speed.
Definition: MSCFModel_KraussPS.cpp:44
MSCFModel
The car-following model abstraction.
Definition: MSCFModel.h:55
MSCFModel::getMaxAccel
double getMaxAccel() const
Get the vehicle type's maximum acceleration [m/s^2].
Definition: MSCFModel.h:256
MSCFModel::myType
const MSVehicleType * myType
The type to which this model definition belongs to.
Definition: MSCFModel.h:695
MSCFModel::getMaxDecel
double getMaxDecel() const
Get the vehicle type's maximal comfortable deceleration [m/s^2].
Definition: MSCFModel.h:264
MSVehicle
Representation of a vehicle in the micro simulation.
Definition: MSVehicle.h:77
MSVehicle::getSlope
double getSlope() const
Returns the slope of the road at vehicle's position in degrees.
Definition: MSVehicle.cpp:1215
MSVehicleType
The car-following model and parameter.
Definition: MSVehicleType.h:63
MSVehicleType::getMaxSpeed
double getMaxSpeed() const
Get vehicle's (technical) maximum speed [m/s].
Definition: MSVehicleType.h:159