Пример #1
0
  private void makeLinks() {

    PolylineFeatureFactory pl =
        new PolylineFeatureFactory.Builder()
            .setName("Link")
            .setCrs(MGC.getCRS("EPSG:32632"))
            .addAttribute("nr_veh", Integer.class)
            .addAttribute("flow", Double.class)
            .addAttribute("angle", Double.class)
            .create();
    Collection<SimpleFeature> features = new ArrayList<SimpleFeature>();
    for (LinkInfo li : this.lis) {
      Link l = li.getLink();
      Coordinate[] coords =
          new Coordinate[] {
            MGC.coord2Coordinate(l.getFromNode().getCoord()),
            MGC.coord2Coordinate(l.getToNode().getCoord())
          };
      SimpleFeature ft =
          pl.createPolyline(
              coords,
              new Object[] {li.getVeh().size(), li.getFlow(), li.getAngle()},
              li.getLink().getId().toString());
      features.add(ft);
    }
    ShapeFileWriter.writeGeometries(features, this.debugDir + "/links.shp");
  }
Пример #2
0
 private void initFeatureType() {
   this.factory =
       new PolylineFeatureFactory.Builder()
           .setCrs(MGC.getCRS(TransformationFactory.WGS84_UTM35S))
           .setName("links")
           .addAttribute("ID", String.class)
           .addAttribute("flowDelta", Double.class)
           .create();
 }
Пример #3
0
  public static void main(String[] args) {
    String netfile = null;
    String outputFileLs = null;
    String outputFileP = null;

    if (args.length == 0) {
      netfile =
          "d:\\Berlin\\berlin-fggeoinfo\\30_Run_20_percent\\20101005_run777_778\\network_modified_20100806_added_BBI_AS_cl.xml.gz";
      //		String netfile = "./test/scenarios/berlin/network.xml.gz";
      EventsCompareConfig.eventsFileOne = "E:/run778/output/ITERS/it.900/run778.900.events.txt";
      EventsCompareConfig.eventsFileTwo = "E:/run777/output/ITERS/it.900/run777.900.events.txt";

      outputFileLs = "e:\\temp\\networkLs_abs.shp";
      outputFileP = "e:\\temp\\networkP_abs.shp";
    } else if (args.length == 3) {
      netfile = args[0];
      outputFileLs = args[1];
      outputFileP = args[2];
    } else {
      log.error("Arguments cannot be interpreted.  Aborting ...");
      System.exit(-1);
    }

    ScenarioImpl scenario = (ScenarioImpl) ScenarioUtils.createScenario(ConfigUtils.createConfig());
    scenario.getConfig().global().setCoordinateSystem("DHDN_GK4");

    log.info("loading network from " + netfile);
    final Network network = scenario.getNetwork();
    new MatsimNetworkReader(scenario).readFile(netfile);
    log.info("done.");

    FeatureGeneratorBuilderImpl builder = new FeatureGeneratorBuilderImpl(network, "DHDN_GK4");
    //		builder.setFeatureGeneratorPrototype(CountVehOnLinksStringBasedFeatureGenerator.class);
    builder.setFeatureGeneratorPrototype(CountVehOnLinksStringBasedFeatureGenerator.class);
    builder.setWidthCoefficient(0.5);
    builder.setWidthCalculatorPrototype(LanesBasedWidthCalculator.class);
    new Links2ESRIShape(network, outputFileLs, builder).write();

    CoordinateReferenceSystem crs = MGC.getCRS("DHDN_GK4");
    builder.setWidthCoefficient(0.01);
    //		builder.setFeatureGeneratorPrototype(CountVehOnLinksPolygonBasedFeatureGenerator.class);
    builder.setFeatureGeneratorPrototype(CountVehOnLinksPolygonBasedFeatureGenerator.class);
    builder.setWidthCalculatorPrototype(CapacityBasedWidthCalculator.class);
    builder.setCoordinateReferenceSystem(crs);
    new Links2ESRIShape(network, outputFileP, builder).write();
  }
Пример #4
0
 private void makeVeh() {
   PointFeatureFactory pf =
       new PointFeatureFactory.Builder()
           .setName("vehicle")
           .setCrs(MGC.getCRS("EPSG:32632"))
           .addAttribute("angle", Double.class)
           .addAttribute("speed", Double.class)
           .create();
   Collection<SimpleFeature> features = new ArrayList<SimpleFeature>();
   int id = 0;
   for (LinkInfo li : this.lis) {
     for (SensorDataVehicle veh : li.getVeh()) {
       SimpleFeature ft =
           pf.createPoint(
               new Coordinate(veh.getX(), veh.getY()),
               new Object[] {veh.getAngle(), veh.getSpeed()},
               id++ + "");
       features.add(ft);
     }
   }
   ShapeFileWriter.writeGeometries(features, this.debugDir + "/vehicles.shp");
 }
Пример #5
0
  public void convertNet2Shape(Network net, String crs, String outputFile) {

    SimpleFeatureTypeBuilder typeBuilder = new SimpleFeatureTypeBuilder();
    typeBuilder.setCRS(MGC.getCRS(crs));
    typeBuilder.setName("link feature");
    typeBuilder.add("Line String", LineString.class);
    typeBuilder.add("id", String.class);
    typeBuilder.add("length", Double.class);
    typeBuilder.add("freespeed", Double.class);
    typeBuilder.add("capacity", Double.class);
    SimpleFeatureBuilder builder = new SimpleFeatureBuilder(typeBuilder.buildFeatureType());

    List<SimpleFeature> features = new ArrayList<SimpleFeature>();

    for (Link link : net.getLinks().values()) {

      Coord from = link.getFromNode().getCoord();
      Coord to = link.getToNode().getCoord();

      SimpleFeature feature =
          builder.buildFeature(
              link.getId().toString(),
              new Object[] {
                new GeometryFactory()
                    .createLineString(
                        new Coordinate[] {MGC.coord2Coordinate(from), MGC.coord2Coordinate(to)}),
                link.getId().toString(),
                link.getLength(),
                link.getFreespeed(),
                link.getCapacity()
              });
      features.add(feature);
    }

    ShapeFileWriter.writeGeometries(features, outputFile);
  }
/** @author amit after Benjamin */
public class SpatialAveragingCongestion {
  private final Logger logger = Logger.getLogger(SpatialAveragingCongestion.class);
  private ExperiencedDelayHandler congestionPerLinkHandler;
  final double scalingFactor = 1.;
  private static final String runDir =
      "/Users/amit/Documents/repos/runs-svn/detEval/emissionCongestionInternalization/output/1pct/run9/";
  private static final String runBAU = runDir + "/baseCaseCtd";
  private static final String runNumber = runDir + "/ei";
  private final String netFile1 = runBAU + "/output_network.xml.gz";

  private final String munichShapeFile =
      "/Users/amit/Documents/repos/shared-svn/projects/detailedEval/Net/shapeFromVISUM/urbanSuburban/cityArea.shp";

  private static String configFileBAU = runBAU + "/output_config.xml";
  private final String eventsFileBAU = runBAU + "/ITERS/it.1500/1500.events.xml.gz";
  private final String eventsFile2 = runNumber + "/ITERS/it.1500/1500.events.xml.gz";
  private final String emissionFileBAU = runBAU + "/ITERS/it.1500/1500.emission.events.xml.gz";
  private final String emissionFile2 = runNumber + "/ITERS/it.1500/1500.emission.events.xml.gz";

  final CoordinateReferenceSystem targetCRS = MGC.getCRS("EPSG:20004");
  final double xMin = 4452550.25;
  final double xMax = 4479483.33;
  final double yMin = 5324955.00;
  final double yMax = 5345696.81;
  final int noOfXbins = 160;
  final int noOfYbins = 120;

  final int noOfTimeBins = 1;

  // ========
  final double smoothingRadius_m = 500.;
  final boolean line = true;
  // ========
  final boolean compareToBAU = true;

  SpatialAveragingUtils sau;
  LocationFilter lf;
  double simulationEndTime;
  Scenario scenario;
  Network network;

  String outPathStub;
  SpatialAveragingUtilsExtended extended;
  EmissionsPerLinkWarmEventHandler warmHandler;

  public void run() {
    this.sau =
        new SpatialAveragingUtils(
            xMin,
            xMax,
            yMin,
            yMax,
            noOfXbins,
            noOfYbins,
            smoothingRadius_m,
            munichShapeFile,
            targetCRS);
    this.lf = new LocationFilter();
    extended = new SpatialAveragingUtilsExtended(smoothingRadius_m);
    this.simulationEndTime = getEndTime(configFileBAU);

    scenario = loadScenario(netFile1);
    this.network = scenario.getNetwork();
    processCongestions(eventsFileBAU);
    processEmissions(emissionFileBAU);

    Map<Double, Map<Id<Link>, Double>> time2LinkDelays =
        this.congestionPerLinkHandler.getDelayPerLinkAndTimeInterval();
    // to keep the same demand in emission and congestion pricing, more logical is using demand from
    // warm emission analysis module.
    Map<Double, Map<Id<Link>, Double>> time2CountsPerLink =
        this.warmHandler.getTime2linkIdLeaveCount();

    Map<Double, double[][]> time2WeightedCongestion =
        fillWeightedCongestionValues(filterLinks(time2LinkDelays));
    Map<Double, double[][]> time2WeightedDemand =
        fillWeightedDemandValues(filterLinks(time2CountsPerLink));

    this.congestionPerLinkHandler.reset(0);
    this.warmHandler.reset(0);

    Map<Double, double[][]> normalizedTime2WeightedCongestion =
        normalizeAllArrays(time2WeightedCongestion);
    Map<Double, double[][]> normalizedTime2WeightedDemand = normalizeAllArrays(time2WeightedDemand);

    /* Sum over weighted values for cell does not need to be normalized, since normalization cancels out.
     * Result is an average value for cell*/
    Map<Double, double[][]> time2SpecificDelays =
        calculateSpecificDelaysPerBin(time2WeightedCongestion, time2WeightedDemand);

    if (line) {
      outPathStub = runDir + "/analysis/spatialPlots/rCongestionLine" + smoothingRadius_m;
    } else {
      outPathStub = runDir + "/analysis/spatialPlots/rCongestionPoint" + smoothingRadius_m;
    }

    for (double endOfTimeInterval : time2WeightedCongestion.keySet()) {
      this.sau.writeRoutput(
          normalizedTime2WeightedCongestion.get(endOfTimeInterval),
          outPathStub + ".sec" + endOfTimeInterval + ".txt");
      this.sau.writeRoutput(
          normalizedTime2WeightedDemand.get(endOfTimeInterval),
          outPathStub + ".vkm." + endOfTimeInterval + ".txt");
      this.sau.writeRoutput(
          time2SpecificDelays.get(endOfTimeInterval),
          outPathStub + ".secVkm." + endOfTimeInterval + ".txt");
    }

    if (compareToBAU) {
      processCongestions(eventsFile2);
      processEmissions(emissionFile2);
      Map<Double, Map<Id<Link>, Double>> time2LinkDelays2 =
          this.congestionPerLinkHandler.getDelayPerLinkAndTimeInterval();
      Map<Double, Map<Id<Link>, Double>> time2CountsPerLink2 =
          this.warmHandler.getTime2linkIdLeaveCount();

      Map<Double, double[][]> time2WeightedCongestion2 =
          fillWeightedCongestionValues(filterLinks(time2LinkDelays2));
      Map<Double, double[][]> normalizedTime2WeightedCongestion2 =
          normalizeAllArrays(time2WeightedCongestion2);

      Map<Double, double[][]> time2WeightedDemand2 =
          fillWeightedDemandValues(filterLinks(time2CountsPerLink2));
      Map<Double, double[][]> normalizedTime2WeightedDemand2 =
          normalizeAllArrays(time2WeightedDemand2);

      /* Sum over weighted values for cell does not need to be normalized, since normalization canceles out.
       * Result is an average value for cell*/
      Map<Double, double[][]> time2SpecificDelays2 =
          calculateSpecificDelaysPerBin(time2WeightedCongestion2, time2WeightedDemand2);
      ////			Map<Double, double[][]> time2SpecificEmissions2 =
      // calculateSpecificEmissionsPerBin(time2NormalizedWeightedEmissions2,
      // time2NormalizedWeightedDemand2);
      //
      /* Sum over weighted values for cell is normalized to "per sqkm" (dependent on calcluateWeightOfLinkForCell)
       * Values NEED to be additive (e.g. vkm, g, counts, or AVERAGE g/vkm!)
       * Make sure coordinate system is metric */
      Map<Double, double[][]> time2AbsoluteDelaysDifferences =
          calculateAbsoluteDifferencesPerBin(
              normalizedTime2WeightedCongestion, normalizedTime2WeightedCongestion2);
      Map<Double, double[][]> time2AbsoluteDemandDifferences =
          calculateAbsoluteDifferencesPerBin(
              normalizedTime2WeightedDemand, normalizedTime2WeightedDemand2);
      Map<Double, double[][]> time2SpecificCongestionDifferences =
          calculateAbsoluteDifferencesPerBin(time2SpecificDelays, time2SpecificDelays2);

      if (line) {
        outPathStub =
            runDir
                + "/analysis/spatialPlots/rCongestionWRTBAULine"
                + smoothingRadius_m; // runDirectory1 + "analysis/spatialAveraging/" + runNumber1 +
                                     // "." + lastIteration1;
      } else {
        outPathStub =
            runDir
                + "/analysis/spatialPlots/rCongestionWRTBAUPoint"
                + smoothingRadius_m; // runDirectory1 + "analysis/spatialAveraging/" + runNumber1 +
                                     // "." + lastIteration1;
      }

      for (double endOfTimeInterval : time2AbsoluteDemandDifferences.keySet()) {
        this.sau.writeRoutput(
            time2AbsoluteDelaysDifferences.get(endOfTimeInterval),
            outPathStub + ".sec." + endOfTimeInterval + ".txt");
        this.sau.writeRoutput(
            time2AbsoluteDemandDifferences.get(endOfTimeInterval),
            outPathStub + ".vkm." + endOfTimeInterval + ".txt");
        this.sau.writeRoutput(
            time2SpecificCongestionDifferences.get(endOfTimeInterval),
            outPathStub + ".secPerVkm." + endOfTimeInterval + ".txt");
      }
    }
  }

  private Map<Double, double[][]> calculateSpecificDelaysPerBin(
      Map<Double, double[][]> time2weightedDelays, Map<Double, double[][]> time2weightedDemand) {

    Map<Double, double[][]> time2specificDelays = new HashMap<Double, double[][]>();
    for (Double endOfTimeInterval : time2weightedDelays.keySet()) {
      double[][] specificDelays = new double[noOfXbins][noOfYbins];
      for (int xIndex = 0; xIndex < noOfXbins; xIndex++) {
        for (int yIndex = 0; yIndex < noOfYbins; yIndex++) {
          specificDelays[xIndex][yIndex] =
              time2weightedDelays.get(endOfTimeInterval)[xIndex][yIndex]
                  / time2weightedDemand.get(endOfTimeInterval)[xIndex][yIndex];
        }
      }
      time2specificDelays.put(endOfTimeInterval, specificDelays);
    }
    return time2specificDelays;
  }

  private Map<Double, double[][]> normalizeAllArrays(Map<Double, double[][]> time2Array) {
    Map<Double, double[][]> time2NormalizedArray = new HashMap<Double, double[][]>();
    for (Double endOfTimeInterval : time2Array.keySet()) {
      double[][] normalizedArray = this.sau.normalizeArray(time2Array.get(endOfTimeInterval));
      time2NormalizedArray.put(endOfTimeInterval, normalizedArray);
    }
    return time2NormalizedArray;
  }

  private Map<Double, Map<Id<Link>, Double>> filterLinks(
      Map<Double, Map<Id<Link>, Double>> time2LinksData) {
    Map<Double, Map<Id<Link>, Double>> time2LinksDataFiltered =
        new HashMap<Double, Map<Id<Link>, Double>>();

    for (Double endOfTimeInterval : time2LinksData.keySet()) {
      Map<Id<Link>, Double> linksData = time2LinksData.get(endOfTimeInterval);
      Map<Id<Link>, Double> linksDataFiltered = new HashMap<Id<Link>, Double>();

      for (Link link : network.getLinks().values()) {
        Coord linkCoord = link.getCoord();
        if (this.sau.isInResearchArea(linkCoord)) {
          Id<Link> linkId = link.getId();

          if (linksData.get(linkId) == null) {
            linksDataFiltered.put(linkId, 0.);
          } else {
            linksDataFiltered.put(linkId, linksData.get(linkId));
          }
        }
      }
      time2LinksDataFiltered.put(endOfTimeInterval, linksDataFiltered);
    }
    return time2LinksDataFiltered;
  }

  private Map<Double, double[][]> fillWeightedCongestionValues(
      Map<Double, Map<Id<Link>, Double>> map) {
    Map<Double, double[][]> time2weightedDelays = new HashMap<Double, double[][]>();

    for (Double endOfTimeInterval : map.keySet()) {
      double[][] weightedDelays = new double[noOfXbins][noOfYbins];

      for (Id<Link> linkId : map.get(endOfTimeInterval).keySet()) {
        Coord linkCoord = this.network.getLinks().get(linkId).getCoord();
        double xLink = linkCoord.getX();
        double yLink = linkCoord.getY();

        Coord fromNodeCoord = this.network.getLinks().get(linkId).getFromNode().getCoord();
        Coord toNodeCoord = this.network.getLinks().get(linkId).getToNode().getCoord();

        double value = map.get(endOfTimeInterval).get(linkId);
        double scaledValue = this.scalingFactor * value;

        // TODO: maybe calculate the following once and look it up here?
        for (int xIndex = 0; xIndex < noOfXbins; xIndex++) {
          for (int yIndex = 0; yIndex < noOfYbins; yIndex++) {
            Coord cellCentroid = this.sau.findCellCentroid(xIndex, yIndex);
            double weightOfLinkForCell;
            if (line) {
              weightOfLinkForCell =
                  extended.calculateWeightOfLineForCellV2(
                      fromNodeCoord, toNodeCoord, cellCentroid.getX(), cellCentroid.getY());
            } else {
              weightOfLinkForCell =
                  this.sau.calculateWeightOfPointForCell(
                      xLink, yLink, cellCentroid.getX(), cellCentroid.getY());
            }
            weightedDelays[xIndex][yIndex] += weightOfLinkForCell * scaledValue;
          }
        }
      }
      time2weightedDelays.put(endOfTimeInterval, weightedDelays);
    }
    return time2weightedDelays;
  }

  private Map<Double, double[][]> fillWeightedDemandValues(Map<Double, Map<Id<Link>, Double>> map) {
    Map<Double, double[][]> time2weightedDemand = new HashMap<Double, double[][]>();

    for (Double endOfTimeInterval : map.keySet()) {
      double[][] weightedDemand = new double[noOfXbins][noOfYbins];

      for (Id<Link> linkId : map.get(endOfTimeInterval).keySet()) {
        Coord linkCoord = this.network.getLinks().get(linkId).getCoord();
        double xLink = linkCoord.getX();
        double yLink = linkCoord.getY();
        double linkLength_km = this.network.getLinks().get(linkId).getLength() / 1000.;

        Coord fromNodeCoord = this.network.getLinks().get(linkId).getFromNode().getCoord();
        Coord toNodeCoord = this.network.getLinks().get(linkId).getToNode().getCoord();

        double count = map.get(endOfTimeInterval).get(linkId);
        double vkm = count * linkLength_km;
        double scaledVkm = this.scalingFactor * vkm;

        // TODO: maybe calculate the following once and look it up here?
        for (int xIndex = 0; xIndex < noOfXbins; xIndex++) {
          for (int yIndex = 0; yIndex < noOfYbins; yIndex++) {
            Coord cellCentroid = this.sau.findCellCentroid(xIndex, yIndex);
            double weightOfLinkForCell;
            if (line) {
              weightOfLinkForCell =
                  extended.calculateWeightOfLineForCellV2(
                      fromNodeCoord, toNodeCoord, cellCentroid.getX(), cellCentroid.getY());
            } else {
              weightOfLinkForCell =
                  this.sau.calculateWeightOfPointForCell(
                      xLink, yLink, cellCentroid.getX(), cellCentroid.getY());
            }
            weightedDemand[xIndex][yIndex] += weightOfLinkForCell * scaledVkm;
          }
        }
      }
      time2weightedDemand.put(endOfTimeInterval, weightedDemand);
    }
    return time2weightedDemand;
  }

  private Map<Double, double[][]> calculateAbsoluteDifferencesPerBin(
      Map<Double, double[][]> time2weightedValues1, Map<Double, double[][]> time2weightedValues2) {

    Map<Double, double[][]> time2absoluteDifferences = new HashMap<Double, double[][]>();
    for (Double endOfTimeInterval : time2weightedValues1.keySet()) {
      double[][] absoluteDifferences = new double[noOfXbins][noOfYbins];
      for (int xIndex = 0; xIndex < noOfXbins; xIndex++) {
        for (int yIndex = 0; yIndex < noOfYbins; yIndex++) {
          absoluteDifferences[xIndex][yIndex] =
              time2weightedValues2.get(endOfTimeInterval)[xIndex][yIndex]
                  - time2weightedValues1.get(endOfTimeInterval)[xIndex][yIndex];
        }
      }
      time2absoluteDifferences.put(endOfTimeInterval, absoluteDifferences);
    }
    return time2absoluteDifferences;
  }

  private void processCongestions(String eventFile) {
    EventsManager eventsManager = EventsUtils.createEventsManager();
    MatsimEventsReader eventsReader = new MatsimEventsReader(eventsManager);
    this.congestionPerLinkHandler = new ExperiencedDelayHandler(scenario, noOfTimeBins);
    eventsManager.addHandler(this.congestionPerLinkHandler);
    eventsReader.readFile(eventFile);
  }

  private void processEmissions(String emissionFile) {
    EventsManager eventsManager = EventsUtils.createEventsManager();
    EmissionEventsReader emissionReader = new EmissionEventsReader(eventsManager);
    this.warmHandler = new EmissionsPerLinkWarmEventHandler(this.simulationEndTime, noOfTimeBins);
    eventsManager.addHandler(this.warmHandler);
    emissionReader.parse(emissionFile);
  }

  private Scenario loadScenario(String netFile) {
    Config config = ConfigUtils.createConfig();
    config.network().setInputFile(netFile);
    Scenario scenario = ScenarioUtils.loadScenario(config);
    return scenario;
  }

  private Double getEndTime(String configfile) {
    Config config = ConfigUtils.createConfig();
    ConfigReader configReader = new ConfigReader(config);
    configReader.readFile(configfile);
    Double endTime = config.qsim().getEndTime();
    logger.info("Simulation end time is: " + endTime / 3600 + " hours.");
    logger.info(
        "Aggregating emissions for " + (int) (endTime / 3600 / noOfTimeBins) + " hour time bins.");
    return endTime;
  }

  public static void main(String[] args) {
    SpatialAveragingCongestion sac = new SpatialAveragingCongestion();
    sac.run();
  }
}
Пример #7
0
  public static void main(String[] args) throws Exception {

    String baseDir = "../../../shared-svn/projects/cottbus/data/scenarios/cottbus_scenario/";
    String networkFile = baseDir + "network_wgs84_utm33n.xml.gz";
    boolean useLanduse = true;
    String populationOutputDirectory = baseDir + "cb_spn_gemeinde_nachfrage_landuse_ohneTagebau/";

    //		String shapesOutputDirectory = populationOutputDirectory + "shapes_all_modes/";
    String shapesOutputDirectory = populationOutputDirectory + "shapes/";

    //		String populationOutputFile = populationOutputDirectory +
    // "commuter_population_wgs84_utm33n.xml.gz";
    String populationOutputFile =
        populationOutputDirectory + "commuter_population_wgs84_utm33n_car_only.xml.gz";
    OutputDirectoryLogging.initLoggingWithOutputDirectory(populationOutputDirectory);

    File shapes = new File(shapesOutputDirectory);
    if (!shapes.exists()) {
      shapes.mkdir();
    }

    Config config1 = ConfigUtils.createConfig();
    config1.network().setInputFile(networkFile);
    Scenario sc = ScenarioUtils.loadScenario(config1);

    CommuterDataReader cdr = new CommuterDataReader();
    cdr.addFilterRange(12071000);
    cdr.addFilter("12052000"); // 12052000 == cottbus stadt
    cdr.readFile(
        "../../../shared-svn/studies/countries/de/pendler_nach_gemeinden/brandenburg_einpendler.csv");
    //		cdr.getCommuterRelations().add(new CommuterDataElement("12052000", "12052000", 1000));

    String gemeindenBrandenburgShapeFile =
        "../../../shared-svn/studies/countries/de/brandenburg_gemeinde_kreisgrenzen/gemeinden/dlm_gemeinden.shp";
    ShapeFileReader gemeindenReader = new ShapeFileReader();
    Collection<SimpleFeature> gemeindenFeatures =
        gemeindenReader.readFileAndInitialize(gemeindenBrandenburgShapeFile);

    CommuterDemandWriter cdw =
        new CommuterDemandWriter(
            gemeindenFeatures,
            gemeindenReader.getCoordinateSystem(),
            cdr.getCommuterRelations(),
            MGC.getCRS(TransformationFactory.WGS84_UTM33N));
    // landuse
    if (useLanduse) {
      DgLanduseReader landuseReader = new DgLanduseReader();
      Tuple<Collection<SimpleFeature>, CoordinateReferenceSystem> homeLanduse =
          landuseReader.readLanduseDataHome();
      Tuple<Collection<SimpleFeature>, CoordinateReferenceSystem> workLanduse =
          landuseReader.readLanduseDataWork();
      cdw.addLanduse("home", homeLanduse);
      cdw.addLanduse("work", workLanduse);
    }
    //
    //		cdw.setScalefactor(1.0); // all modes
    cdw.setScalefactor(0.55); // car mode share
    //		cdw.setScalefactor(0.1); //testing

    cdw.computeDemand(sc);
    PopulationWriter populationWriter = new PopulationWriter(sc.getPopulation(), sc.getNetwork());
    populationWriter.write(populationOutputFile);
    log.info("population written to " + populationOutputFile);

    // write some test output
    Config config = ConfigUtils.createConfig();
    config.network().setInputFile(networkFile);
    config.plans().setInputFile(populationOutputFile);
    Scenario baseScenario = ScenarioUtils.loadScenario(config);

    String shapeFilename = shapesOutputDirectory + "commuter_population_home.shp";
    new DgPopulation2ShapeWriter(
            baseScenario.getPopulation(), MGC.getCRS(TransformationFactory.WGS84_UTM33N))
        .write("home", shapeFilename, MGC.getCRS(TransformationFactory.WGS84_UTM33N));
    shapeFilename = shapesOutputDirectory + "commuter_population_work.shp";
    new DgPopulation2ShapeWriter(
            baseScenario.getPopulation(), MGC.getCRS(TransformationFactory.WGS84_UTM33N))
        .write("work", shapeFilename, MGC.getCRS(TransformationFactory.WGS84_UTM33N));

    log.info("done!");
    OutputDirectoryLogging.closeOutputDirLogging();
  }