/** * Reads the data from database and writes into detectors hashmap * * @throws SQLException */ public void readDataIntoDetectorListFromDatabase() throws SQLException { // TestConfiguration.dbSetup(); PeMSStationAggregateReader stationAggregateReader = new PeMSStationAggregateReader(oraDatabase.doConnect()); ArrayList<Long> vdsIDs = new ArrayList<Long>(); for (int key : detectors.keySet()) { vdsIDs.add((long) key); } List<PeMSStationAggregate> stationsAggregate = stationAggregateReader.read( this.timeInterval, vdsIDs, PeMSAggregate.AggregationLevel.PEMS_5MIN); // Read absolute detector info into the hashmap VDSReader stationReader = new VDSReader(oraDatabase.doConnect()); for (int key : detectors.keySet()) { VDS station = stationReader.read((long) key); Detector d = detectors.get(key); d.setAbsolutePM(station.getAbsolutePostmile()); d.setDetectorLength(station.getDetectorLength()); d.setDetectorName(station.getDetectorName()); d.setFreewayDirection(station.getDirection()); d.setFreewayNumber(station.getFreewayNum()); d.setLatitude(station.getPosition().getPoint().get(0).getLat()); d.setLongitude(station.getPosition().getPoint().get(0).getLng()); d.setNumberOfLanes(station.getLaneCount()); } // Read 5 minute data into the hashmap for (int i = 0; i < stationsAggregate.size(); i++) { // find the detector corresponding to the current ID in the data vector and fill the fields // accordingly Detector d = detectors.get((int) stationsAggregate.get(i).getVdsId()); d.addDatumToSpeed(stationsAggregate.get(i).getTotal().getAvgSpeed()); d.addDatumToFlow( stationsAggregate.get(i).getTotal().getFlow() * 12 / d .getNumberOfLanes()); // to get the hourly rate at 5 minute granularity, multiply // by 12 d.addDatumToDensity( stationsAggregate.get(i).getTotal().getFlow() * 12 / stationsAggregate.get(i).getTotal().getAvgSpeed() / d.getNumberOfLanes()); if (i < detectors.size()) { d.setHealthStatus(stationsAggregate.get(i).getTotal().getObserved()); } } }
/** * Reads the detector data from spreadsheet and writes into detectors hashmap The files should be * in the following format and placed in the root directory of the imputer project folder (for * example, see detOutMainlines_431.csv) 1) 5 minute data granularity is assumed 2) The data * should be sorted by alphabetical order of detector IDs and the data column should be * chronologically sorted for each detector * * @throws IOException * @throws BiffException */ public void readDataIntoDetectorListFromSpreadSheet(String filename) throws BiffException, IOException { Workbook workbook = Workbook.getWorkbook(new File(filename)); int rowIndex = 1; // start the index at 1 and increase by number of data points after each iteration // Read absolute detector info and 5 minute data into the hashmap (some fields not important for // fake detectors, left blank or 0 for the time being) for (int key : detectors.keySet()) { Detector d = detectors.get(key); // find row index while (true) { NumberCell nc2 = (NumberCell) workbook.getSheet(0).getCell(0, rowIndex); if (nc2.getValue() == key) { break; } rowIndex++; } NumberCell nc = (NumberCell) workbook.getSheet(0).getCell(4, rowIndex); // Postmile d.setAbsolutePM(nc.getValue()); d.setDetectorLength(0.0); d.setDetectorName(workbook.getSheet(0).getCell(1, rowIndex).getContents()); // Name d.setFreewayDirection(""); d.setFreewayNumber(0); d.setLatitude(0.0); d.setLongitude(0.0); NumberCell nc1 = (NumberCell) workbook.getSheet(0).getCell(13, rowIndex); // Number of Lanes Double temp = nc1.getValue(); d.setNumberOfLanes(temp.intValue()); for (int k = rowIndex; k < rowIndex + totalTimeInHours * 60 / 5; k++) { NumberCell ncSpeed = (NumberCell) workbook.getSheet(0).getCell(6, k); // Speed NumberCell ncFlow = (NumberCell) workbook.getSheet(0).getCell(5, k); // Flow d.addDatumToSpeed(ncSpeed.getValue()); d.addDatumToFlow(ncFlow.getValue() / d.getNumberOfLanes()); d.addDatumToDensity(ncFlow.getValue() / ncSpeed.getValue() / d.getNumberOfLanes()); } nc = (NumberCell) workbook.getSheet(0).getCell(14, rowIndex); // Health if (nc.getValue() == 0) { d.setHealthStatus(100.0); } else { d.setHealthStatus(0.0); } rowIndex = 1; // rowIndex += totalTimeInHours*60/5; } }
/** Reads fundamental diagram parameters from AIMSUN generated xml */ public void readFundamentalDiagramsFromXML_AIMSUN() { for (int key : detectors.keySet()) { Detector d = detectors.get(key); // find the corresponding FD profile int i; for (i = 0; i < this.mainScenario .getFundamentalDiagramProfileSet() .getFundamentalDiagramProfile() .size(); i++) { if (Integer.parseInt( this.mainScenario .getFundamentalDiagramProfileSet() .getFundamentalDiagramProfile() .get(i) .getLinkId()) == d.getLinkAssoc()) { break; } } BigDecimal vf = this.mainScenario .getFundamentalDiagramProfileSet() .getFundamentalDiagramProfile() .get(i) .getFundamentalDiagram() .get(0) .getFreeFlowSpeed(); BigDecimal q_max = this.mainScenario .getFundamentalDiagramProfileSet() .getFundamentalDiagramProfile() .get(i) .getFundamentalDiagram() .get(0) .getCapacity(); BigDecimal rhojam = this.mainScenario .getFundamentalDiagramProfileSet() .getFundamentalDiagramProfile() .get(i) .getFundamentalDiagram() .get(0) .getJamDensity(); double w = q_max.doubleValue() / (rhojam.doubleValue() - q_max.doubleValue() / vf.doubleValue()); d.getFdParams().setFD(vf.doubleValue(), w, q_max.doubleValue() / d.getNumberOfLanes()); detectors.put(key, d); } }