private Tuple<Integer, Integer> getZoneTupleForLinks(Coord coord) {
double xCoord = coord.getX();
double yCoord = coord.getY();
int xDirection = (int) ((xCoord - xCoordMinLinkNode) / (noiseParams.getRelevantRadius() / 1.));
int yDirection = (int) ((yCoordMaxLinkNode - yCoord) / noiseParams.getRelevantRadius() / 1.);
Tuple<Integer, Integer> zoneDefinition = new Tuple<Integer, Integer>(xDirection, yDirection);
return zoneDefinition;
}
private void setLinksToZones() {
for (Id<Link> linkId : scenario.getNetwork().getLinks().keySet()) {
// split up the link into link segments with the following length
double partLength = 0.25 * noiseParams.getRelevantRadius();
int parts = (int) ((scenario.getNetwork().getLinks().get(linkId).getLength()) / (partLength));
double fromX = scenario.getNetwork().getLinks().get(linkId).getFromNode().getCoord().getX();
double fromY = scenario.getNetwork().getLinks().get(linkId).getFromNode().getCoord().getY();
double toX = scenario.getNetwork().getLinks().get(linkId).getToNode().getCoord().getX();
double toY = scenario.getNetwork().getLinks().get(linkId).getToNode().getCoord().getY();
double vectorX = toX - fromX;
double vectorY = toY - fromY;
// collect the coordinates of this link
List<Coord> coords = new ArrayList<Coord>();
coords.add(scenario.getNetwork().getLinks().get(linkId).getFromNode().getCoord());
coords.add(scenario.getNetwork().getLinks().get(linkId).getToNode().getCoord());
for (int i = 1; i < parts; i++) {
double x = fromX + (i * ((1. / (parts)) * vectorX));
double y = fromY + (i * ((1. / (parts)) * vectorY));
Coord coordTmp = new Coord(x, y);
coords.add(coordTmp);
}
// get zone grid cells for these coordinates
List<Tuple<Integer, Integer>> relevantTuples = new ArrayList<Tuple<Integer, Integer>>();
for (Coord coord : coords) {
Tuple<Integer, Integer> tupleTmp = getZoneTupleForLinks(coord);
if (!(relevantTuples.contains(tupleTmp))) {
relevantTuples.add(tupleTmp);
}
}
// go through these zone grid cells and save the link Id
for (Tuple<Integer, Integer> tuple : relevantTuples) {
if (zoneTuple2listOfLinkIds.containsKey(tuple)) {
List<Id<Link>> linkIds = zoneTuple2listOfLinkIds.get(tuple);
linkIds.add(linkId);
zoneTuple2listOfLinkIds.put(tuple, linkIds);
} else {
List<Id<Link>> linkIds = new ArrayList<>();
linkIds.add(linkId);
zoneTuple2listOfLinkIds.put(tuple, linkIds);
}
}
}
}
public NoiseContext(Scenario scenario) {
this.scenario = scenario;
if ((NoiseConfigGroup) this.scenario.getConfig().getModule("noise") == null) {
throw new RuntimeException(
"Could not find a noise config group. "
+ "Check if the custom module is loaded, e.g. 'ConfigUtils.loadConfig(configFile, new NoiseConfigGroup())'"
+ " Aborting...");
}
this.noiseParams = (NoiseConfigGroup) this.scenario.getConfig().getModule("noise");
this.noiseParams.checkNoiseParametersForConsistency();
this.grid = new Grid(scenario);
this.currentTimeBinEndTime = noiseParams.getTimeBinSizeNoiseComputation();
this.noiseReceiverPoints = new HashMap<Id<ReceiverPoint>, NoiseReceiverPoint>();
this.noiseLinks = new HashMap<Id<Link>, NoiseLink>();
checkConsistency();
setRelevantLinkInfo();
}
private void setRelevantLinkInfo() {
setLinksMinMax();
setLinksToZones();
int counter = 0;
for (ReceiverPoint rp : this.grid.getReceiverPoints().values()) {
counter++;
if (counter % 10000. == 0.) {
log.info("Setting relevant link information for receiver point # " + counter);
}
NoiseReceiverPoint nrp = new NoiseReceiverPoint(rp.getId(), rp.getCoord());
double pointCoordX = nrp.getCoord().getX();
double pointCoordY = nrp.getCoord().getY();
Map<Id<Link>, Double> relevantLinkIds2Ds = new HashMap<>();
Map<Id<Link>, Double> relevantLinkIds2angleImmissionCorrection = new HashMap<>();
// get the zone grid cell around the receiver point
Tuple<Integer, Integer> zoneTuple = getZoneTupleForLinks(nrp.getCoord());
// collect all Ids of links in this zone grid cell...
List<Id<Link>> potentialLinks = new ArrayList<>();
if (zoneTuple2listOfLinkIds.containsKey(zoneTuple)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(zoneTuple));
}
// collect all Ids of links in all surrounding zone grid cells
int x = zoneTuple.getFirst();
int y = zoneTuple.getSecond();
Tuple<Integer, Integer> TupleNW = new Tuple<Integer, Integer>(x - 1, y - 1);
if (zoneTuple2listOfLinkIds.containsKey(TupleNW)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleNW));
}
Tuple<Integer, Integer> TupleN = new Tuple<Integer, Integer>(x, y - 1);
if (zoneTuple2listOfLinkIds.containsKey(TupleN)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleN));
}
Tuple<Integer, Integer> TupleNO = new Tuple<Integer, Integer>(x + 1, y - 1);
if (zoneTuple2listOfLinkIds.containsKey(TupleNO)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleNO));
}
Tuple<Integer, Integer> TupleW = new Tuple<Integer, Integer>(x - 1, y);
if (zoneTuple2listOfLinkIds.containsKey(TupleW)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleW));
}
Tuple<Integer, Integer> TupleO = new Tuple<Integer, Integer>(x + 1, y);
if (zoneTuple2listOfLinkIds.containsKey(TupleO)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleO));
}
Tuple<Integer, Integer> TupleSW = new Tuple<Integer, Integer>(x - 1, y + 1);
if (zoneTuple2listOfLinkIds.containsKey(TupleSW)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleSW));
}
Tuple<Integer, Integer> TupleS = new Tuple<Integer, Integer>(x, y + 1);
if (zoneTuple2listOfLinkIds.containsKey(TupleS)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleS));
}
Tuple<Integer, Integer> TupleSO = new Tuple<Integer, Integer>(x + 1, y + 1);
if (zoneTuple2listOfLinkIds.containsKey(TupleSO)) {
potentialLinks.addAll(zoneTuple2listOfLinkIds.get(TupleSO));
}
// go through these potential relevant link Ids
List<Id<Link>> relevantLinkIds = new ArrayList<>();
for (Id<Link> linkId : potentialLinks) {
if (!(relevantLinkIds.contains(linkId))) {
double fromCoordX =
scenario.getNetwork().getLinks().get(linkId).getFromNode().getCoord().getX();
double fromCoordY =
scenario.getNetwork().getLinks().get(linkId).getFromNode().getCoord().getY();
double toCoordX =
scenario.getNetwork().getLinks().get(linkId).getToNode().getCoord().getX();
double toCoordY =
scenario.getNetwork().getLinks().get(linkId).getToNode().getCoord().getY();
double lotPointX = 0.;
double lotPointY = 0.;
double vectorX = toCoordX - fromCoordX;
if (vectorX == 0.) {
vectorX = 0.00000001;
// dividing by zero is not possible
}
double vectorY = toCoordY - fromCoordY;
double vector = vectorY / vectorX;
if (vector == 0.) {
vector = 0.00000001;
// dividing by zero is not possible
}
double vector2 = (-1) * (1 / vector);
double yAbschnitt = fromCoordY - (fromCoordX * vector);
double yAbschnittOriginal = fromCoordY - (fromCoordX * vector);
double yAbschnitt2 = pointCoordY - (pointCoordX * vector2);
double xValue = 0.;
double yValue = 0.;
if (yAbschnitt < yAbschnitt2) {
yAbschnitt2 = yAbschnitt2 - yAbschnitt;
yAbschnitt = 0;
xValue = yAbschnitt2 / (vector - vector2);
yValue = yAbschnittOriginal + (xValue * vector);
} else if (yAbschnitt2 < yAbschnitt) {
yAbschnitt = yAbschnitt - yAbschnitt2;
yAbschnitt2 = 0;
xValue = yAbschnitt / (vector2 - vector);
yValue = yAbschnittOriginal + (xValue * vector);
}
lotPointX = xValue;
lotPointY = yValue;
double distance = 0.;
if (((xValue > fromCoordX) && (xValue < toCoordX))
|| ((xValue > toCoordX) && (xValue < fromCoordX))
|| ((yValue > fromCoordY) && (yValue < toCoordY))
|| ((yValue > toCoordY) && (yValue < fromCoordY))) {
// no edge solution
distance =
Math.sqrt(
(Math.pow(lotPointX - pointCoordX, 2))
+ (Math.pow(lotPointY - pointCoordY, 2)));
} else {
// edge solution (Randloesung)
double distanceToFromNode =
Math.sqrt(
(Math.pow(fromCoordX - pointCoordX, 2))
+ (Math.pow(fromCoordY - pointCoordY, 2)));
double distanceToToNode =
Math.sqrt(
(Math.pow(toCoordX - pointCoordX, 2)) + (Math.pow(toCoordY - pointCoordY, 2)));
if (distanceToFromNode > distanceToToNode) {
distance = distanceToToNode;
} else {
distance = distanceToFromNode;
}
}
if (distance < noiseParams.getRelevantRadius()) {
relevantLinkIds.add(linkId);
if (distance == 0) {
double minimumDistance = 5.;
distance = minimumDistance;
log.warn(
"Distance between "
+ linkId
+ " and "
+ rp.getId()
+ " is 0. The calculation of the correction term Ds requires a distance > 0. Therefore, setting the distance to a minimum value of "
+ minimumDistance
+ ".");
}
double correctionTermDs = NoiseEquations.calculateDistanceCorrection(distance);
double correctionTermAngle =
calculateAngleImmissionCorrection(
nrp.getCoord(), scenario.getNetwork().getLinks().get(linkId));
relevantLinkIds2Ds.put(linkId, correctionTermDs);
relevantLinkIds2angleImmissionCorrection.put(linkId, correctionTermAngle);
}
}
}
nrp.setLinkId2distanceCorrection(relevantLinkIds2Ds);
nrp.setLinkId2angleCorrection(relevantLinkIds2angleImmissionCorrection);
this.noiseReceiverPoints.put(nrp.getId(), nrp);
}
}
