AnticipationTrafficPerception.java
package org.opentrafficsim.road.gtu.lane.perception.categories;
import java.util.LinkedHashMap;
import java.util.Map;
import org.djunits.value.vdouble.scalar.LinearDensity;
import org.djunits.value.vdouble.scalar.Speed;
import org.djunits.value.vdouble.scalar.Time;
import org.djutils.exceptions.Try;
import org.opentrafficsim.base.TimeStampedObject;
import org.opentrafficsim.base.parameters.ParameterException;
import org.opentrafficsim.base.parameters.ParameterTypeLength;
import org.opentrafficsim.base.parameters.ParameterTypes;
import org.opentrafficsim.base.parameters.Parameters;
import org.opentrafficsim.core.gtu.GTUException;
import org.opentrafficsim.core.network.NetworkException;
import org.opentrafficsim.road.gtu.lane.LaneBasedGTU;
import org.opentrafficsim.road.gtu.lane.perception.LanePerception;
import org.opentrafficsim.road.gtu.lane.perception.RelativeLane;
import org.opentrafficsim.road.gtu.lane.perception.categories.AnticipationSpeed.SpeedSet;
import org.opentrafficsim.road.gtu.lane.perception.categories.neighbors.NeighborsPerception;
/**
* Traffic perception using neighbors perception. Speed is anticipated as in the LMRS. Density is simply distance of the
* farthest leader divided by the number of leaders.
* <p>
* Copyright (c) 2013-2020 Delft University of Technology, PO Box 5, 2600 AA, Delft, the Netherlands. All rights reserved. <br>
* BSD-style license. See <a href="http://opentrafficsim.org/node/13">OpenTrafficSim License</a>.
* <p>
* @version $Revision$, $LastChangedDate$, by $Author$, initial version 13 mrt. 2018 <br>
* @author <a href="http://www.tbm.tudelft.nl/averbraeck">Alexander Verbraeck</a>
* @author <a href="http://www.tudelft.nl/pknoppers">Peter Knoppers</a>
* @author <a href="http://www.transport.citg.tudelft.nl">Wouter Schakel</a>
*/
public class AnticipationTrafficPerception extends LaneBasedAbstractPerceptionCategory implements TrafficPerception
{
/** */
private static final long serialVersionUID = 20180313L;
/** Look ahead parameter type. */
protected static final ParameterTypeLength LOOKAHEAD = ParameterTypes.LOOKAHEAD;
/** Last time speed was updated. */
private Time lastSpeedTime = null;
/** Anticipated speed by vehicles in the left lane. */
private Map<RelativeLane, Double> antFromLeft = new LinkedHashMap<>();
/** Anticipated speed by vehicles in the lane. */
private Map<RelativeLane, Double> antInLane = new LinkedHashMap<>();
/** Anticipated speed by vehicles in the right lane. */
private Map<RelativeLane, Double> antFromRight = new LinkedHashMap<>();
/** Anticipated speed combined. */
private Map<RelativeLane, Speed> speed = new LinkedHashMap<>();
/** Anticipated density combined. */
private Map<RelativeLane, TimeStampedObject<LinearDensity>> density = new LinkedHashMap<>();
/** Density collector. */
private static final AnticipationDensity DENSITY = new AnticipationDensity();
/**
* Constructor.
* @param perception LanePerception; perception
*/
public AnticipationTrafficPerception(final LanePerception perception)
{
super(perception);
}
/** {@inheritDoc} */
@Override
public Speed getSpeed(final RelativeLane lane) throws ParameterException
{
Time now = Try.assign(() -> getTimestamp(), "");
if (this.lastSpeedTime == null || this.lastSpeedTime.si < now.si)
{
// due to lane interdependency, we clear all
this.antFromLeft.clear();
this.antInLane.clear();
this.antFromRight.clear();
this.speed.clear();
this.lastSpeedTime = now;
}
Speed vAnt = this.speed.get(lane);
if (vAnt == null)
{
LaneBasedGTU gtu = Try.assign(() -> getPerception().getGtu(), "");
Speed desiredSpeed = gtu.getDesiredSpeed();
vAnt = anticipationSpeed(lane, gtu.getParameters(),
getPerception().getPerceptionCategoryOrNull(NeighborsPerception.class),
getPerception().getPerceptionCategoryOrNull(InfrastructurePerception.class), desiredSpeed);
this.speed.put(lane, vAnt);
}
return vAnt;
}
/**
* Returns the anticipation speed in a lane. GTU's in adjacent lanes with their indicator towards the given lane are
* included in the evaluation.
* @param lane RelativeLane; lane to assess
* @param params Parameters; parameters
* @param neighbors NeighborsPerception; neighbors perception
* @param infra InfrastructurePerception; infrastructure perception
* @param desiredSpeed Speed; desired speed
* @return Speed; anticipation speed in lane
* @throws ParameterException on missing parameter
*/
private Speed anticipationSpeed(final RelativeLane lane, final Parameters params, final NeighborsPerception neighbors,
final InfrastructurePerception infra, final Speed desiredSpeed) throws ParameterException
{
if (!this.antInLane.containsKey(lane))
{
anticipateSpeedFromLane(lane, params, neighbors, desiredSpeed);
}
double v = this.antInLane.get(lane);
if (infra.getCrossSection().contains(lane.getLeft()))
{
if (!this.antFromLeft.containsKey(lane))
{
anticipateSpeedFromLane(lane.getLeft(), params, neighbors, desiredSpeed);
}
double fromLeft = this.antFromLeft.get(lane);
v = v < fromLeft ? v : fromLeft;
}
if (infra.getCrossSection().contains(lane.getRight()))
{
if (!this.antFromRight.containsKey(lane))
{
anticipateSpeedFromLane(lane.getRight(), params, neighbors, desiredSpeed);
}
double fromRight = this.antFromRight.get(lane);
v = v < fromRight ? v : fromRight;
}
return Speed.instantiateSI(v);
}
/**
* Anticipate speed from the GTUs in one lane. This affects up to 3 lanes, all this information is stored.
* @param lane RelativeLane; lane to assess
* @param params Parameters; parameters
* @param neighbors NeighborsPerception; neighbors perception
* @param desiredSpeed Speed; desired speed
* @throws ParameterException on missing parameter
*/
private void anticipateSpeedFromLane(final RelativeLane lane, final Parameters params, final NeighborsPerception neighbors,
final Speed desiredSpeed) throws ParameterException
{
AnticipationSpeed anticipationSpeed = new AnticipationSpeed(desiredSpeed, params.getParameter(LOOKAHEAD), lane);
SpeedSet speedSet = neighbors.getLeaders(lane).collect(anticipationSpeed);
this.antFromLeft.put(lane.getRight(), speedSet.getRight().si);
this.antInLane.put(lane, speedSet.getCurrent().si);
this.antFromRight.put(lane.getLeft(), speedSet.getLeft().si);
}
/** {@inheritDoc} */
@Override
public LinearDensity getDensity(final RelativeLane lane)
{
Time now = Try.assign(() -> getTimestamp(), "");
TimeStampedObject<LinearDensity> tK = this.density.get(lane);
if (tK == null || tK.getTimestamp().si < now.si)
{
LinearDensity k =
getPerception().getPerceptionCategoryOrNull(NeighborsPerception.class).getLeaders(lane).collect(DENSITY);
this.density.put(lane, new TimeStampedObject<>(k, now));
return k;
}
else
{
return tK.getObject();
}
}
/** {@inheritDoc} */
@Override
public void updateAll() throws GTUException, NetworkException, ParameterException
{
// lazy evaluation
}
/** {@inheritDoc} */
@Override
public String toString()
{
return "AnticipationTrafficPerception [lastSpeedTime=" + this.lastSpeedTime + ", speed=" + this.speed + ", density="
+ this.density + "]";
}
}