2 Commits cfbe20ff1b ... d51bf598ff

Author SHA1 Message Date
  Andreas T. Meyer-Berg d51bf598ff Adds nolabel KNN classifier 3 years ago
  Andreas T. Meyer-Berg d938f8f162 Fixes last temperature bug 3 years ago

+ 1 - 1
src/main/java/de/tu_darmstadt/tk/SmartHomeNetworkSim/core/devices/SmartTemperatureProducer.java

@@ -43,7 +43,7 @@ public class SmartTemperatureProducer extends FloatSensorDevice implements Senso
 		 * Change temperature in 1 hour to target temperature 
 		 */
 		tempChangePerHour = trueTemperature-roomStatus.getTemperature();
-		roomStatus.setTemperature(roomStatus.getTemperature()+tempChangePerHour);
+		roomStatus.setTemperature(roomStatus.getTemperature());
 	}
 
 	@Override

+ 1 - 3
src/main/java/de/tu_darmstadt/tk/SmartHomeNetworkSim/evaluation/BasicPacketClassifier.java

@@ -192,10 +192,8 @@ public abstract class BasicPacketClassifier implements PacketSniffer {
 		// MQTT Value
 		if(packet instanceof MQTTpublishPacket) {
 			instance.setValue(7, ((MQTTpublishPacket)packet).getValue());
-			instance.setValue(8, ((MQTTpublishPacket)packet).getSensorValue());
 		} else {
 			instance.setValue(7, -1);
-			instance.setValue(8, -1);
 		}
 		return instance;
 	}
@@ -326,7 +324,7 @@ public abstract class BasicPacketClassifier implements PacketSniffer {
 	 * @param packets packets to be classified
 	 */
 	protected void classify(HashMap<Link, LinkedList<Packet>> packets) {
-		File anomalyResults = new File("results/"+getCurrentScenario() + scenarioRun + ".csv");
+		File anomalyResults = new File("results/"+getCurrentScenario() + scenarioRun + "nolabels.csv");
 		anomalyResults.getParentFile().mkdir();
 		BufferedWriter writer = null;
 		try {

+ 498 - 0
src/main/java/de/tu_darmstadt/tk/SmartHomeNetworkSim/evaluation/BasicPacketClassifierWitLabels.java

@@ -0,0 +1,498 @@
+package de.tu_darmstadt.tk.SmartHomeNetworkSim.evaluation;
+import java.io.BufferedWriter;
+import java.io.File;
+import java.io.FileWriter;
+import java.io.IOException;
+import java.util.ArrayList;
+import java.util.HashMap;
+import java.util.HashSet;
+import java.util.Iterator;
+import java.util.LinkedList;
+import java.util.Map.Entry;
+
+import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.Link;
+import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.Packet;
+import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.PacketSniffer;
+import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.protocols.packets.MQTTpublishPacket;
+import weka.core.Attribute;
+import weka.core.DenseInstance;
+import weka.core.Instance;
+import weka.core.Instances;
+
+/**
+ * Unsupervised Classifier Basis, which contains methods for transforming {@link Packet}s into {@link Instance}s.
+ *
+ * @author Andreas T. Meyer-Berg
+ */
+public abstract class BasicPacketClassifierWitLabels implements PacketSniffer {
+
+	/**
+	 * True, if instances should be used for training
+	 */
+	protected boolean training = true;
+	
+	/**
+	 * Attributes which should be taken into account
+	 */
+	protected ArrayList<Attribute> atts = new ArrayList<Attribute>();
+	
+	/**
+	 * Collected Packets
+	 */
+	protected Instances dataset;
+	
+	/**
+	 * CollectedPackets
+	 */
+	protected HashMap<Link, LinkedList<Packet>> collectedPackets = new HashMap<Link, LinkedList<Packet>>();
+	
+	/**
+	 * HashMap for calculating transmission delay
+	 */
+	protected HashMap<Link, LinkedList<Packet>> lastPackets = new HashMap<Link, LinkedList<Packet>>();
+	
+	/**
+	 * Map for the different Link names
+	 */
+	protected HashSet<String> link_mappings = new HashSet<String>();
+
+	/**
+	 * Map for the difference source device names
+	 */
+	protected HashSet<String> source_mappings = new HashSet<String>();
+	
+	/**
+	 * Map for the different destination device names
+	 */
+	protected HashSet<String> destination_mappings = new HashSet<String>();
+	
+	/**
+	 * Map for the protocol names
+	 */
+	protected HashSet<String> protocol_mappings = new HashSet<String>();
+
+	/**
+	 * Number of packets which are used to calculate the current transmission speed
+	 */
+	protected int NUMBER_OF_PACKETS = 200;
+	
+	private String currentScenario = "";
+	private int scenarioRun = 0;
+	/**
+	 * Initializes the different maps
+	 */
+	public BasicPacketClassifierWitLabels() {
+		// Initialize Attribute list
+		source_mappings.add("unknown");
+		link_mappings.add("unknown");
+		destination_mappings.add("unknown");
+		protocol_mappings.add("unknown");
+	}
+	
+	@Override
+	public void processPackets(HashMap<Link, LinkedList<Packet>> packets) {
+		if(training)
+			try {
+				training(packets);
+			} catch (Exception e) {
+				e.printStackTrace();
+			}
+		else
+			classify(packets);
+	}
+	
+	/**
+	 * Estimates the current Packets per second (depending on the last 100 packets of the link)
+	 * @param link Link which should be checked
+	 * @param packet Packet which should investigated
+	 * @return estimated number of packets per second
+	 */
+	protected double getEstimatedPacketsPerSecond(Link link, Packet packet) {
+		/**
+		 * Packets used to calculated the packets per second
+		 */
+		LinkedList<Packet> list = lastPackets.get(link);
+		if(list == null) {
+			/**
+			 * Add list if not present
+			 */
+			list = new LinkedList<Packet>();
+			lastPackets.put(link, list);
+		}
+		if(list.isEmpty()) {
+			list.addLast(packet);
+			// Default 1 packet per second
+			return 1.0;
+		}
+		if(list.size() == NUMBER_OF_PACKETS){
+			list.removeFirst();	
+		}
+		list.addLast(packet);
+		/**
+		 * elapsed time in milliseconds since last packet
+		 */
+		long elapsed_time = packet.getTimestamp()-list.getFirst().getTimestamp()/list.size();
+		if(elapsed_time<=0)
+			return Double.POSITIVE_INFINITY;
+		/**
+		 * Return number of packets per second
+		 */
+		return 1000.0/elapsed_time;
+		
+	}
+	
+	/**
+	 * Returns the instance representation of the given packet and link
+	 * @param link link the packet was sent on
+	 * @param packet packet which should be transformed
+	 * @param dataset distribution the packet is part of
+	 * @return instance representation
+	 */
+	protected Instance packet2Instance(Link link, Packet packet, Instances dataset) {
+		/**
+		 * Instance for the given Packet
+		 */
+		DenseInstance instance = new DenseInstance(dataset.numAttributes());
+		instance.setDataset(dataset);
+		
+		// link
+		instance.setValue(0, stringToNominal(link_mappings, link.getName()));
+		
+		// source
+		if(packet.getSource()==null) {
+			instance.setValue(1, "unknown");
+			instance.setValue(2, Double.NEGATIVE_INFINITY);
+		}else if(packet.getSource().getOwner()==null){
+			instance.setValue(1, "unknown");
+			instance.setValue(2, packet.getSource().getPortNumber());
+		}else {
+			instance.setValue(1, stringToNominal(source_mappings, packet.getSource().getOwner().getName()));
+
+			instance.setValue(2, packet.getSource().getPortNumber());
+		}
+		
+		// Destination
+		if(packet.getDestination()==null) {
+			instance.setValue(3, "unknown");
+			instance.setValue(4, Double.NEGATIVE_INFINITY);
+		}else if(packet.getDestination().getOwner()==null){
+			instance.setValue(3, "unknown");
+
+			instance.setValue(4, packet.getDestination().getPortNumber());
+		}else {
+			instance.setValue(3, stringToNominal(destination_mappings, packet.getDestination().getOwner().getName()));
+			instance.setValue(4, packet.getDestination().getPortNumber());
+		}
+		
+		// Protocol name
+		instance.setValue(5, stringToNominal(protocol_mappings, packet.getProtocolName()));
+		
+		// Packets per second
+		instance.setValue(6, getEstimatedPacketsPerSecond(link, packet));
+		// MQTT Value
+		if(packet instanceof MQTTpublishPacket) {
+			instance.setValue(7, ((MQTTpublishPacket)packet).getValue());
+			instance.setValue(8, ((MQTTpublishPacket)packet).getSensorValue());
+		} else {
+			instance.setValue(7, -1);
+			instance.setValue(8, -1);
+		}
+		return instance;
+	}
+	
+	/**
+	 * Inserts the
+	 * @param map
+	 * @param nominal
+	 */
+	protected void insertNominalIntoMap(HashSet<String> map, String nominal) {
+		if(map == null || nominal == null)
+			return;
+		map.add(nominal);
+	}
+	/**
+	 * Transforms the String into an Number
+	 * @param map
+	 * @param s
+	 * @return
+	 */
+	protected String stringToNominal(HashSet<String> map, String s) {
+		return map.contains(s)?s:"unknown";
+	} 
+	
+	/**
+	 * Train the clusterer by collecting the packets
+	 * 
+	 * @param packets packets to be learned
+	 */
+	protected void training(HashMap<Link, LinkedList<Packet>> packets) {
+		for(Entry<Link, LinkedList<Packet>> e:packets.entrySet()) {
+			Link l = e.getKey();
+			// TODO: ERROR ????????
+			LinkedList<Packet> p = collectedPackets.get(l);
+			if(p == null) {
+				collectedPackets.put(l, new LinkedList<Packet>(e.getValue()));
+			} else
+				p.addAll(e.getValue());
+			insertNominalIntoMap(link_mappings, l.getName());
+			for(Packet pac: e.getValue()) {
+				if(pac == null || pac.getSource()==null ||pac.getDestination() == null || pac.getSource().getOwner() == null || pac.getDestination().getOwner() == null)
+					continue;
+				insertNominalIntoMap(destination_mappings, pac.getSource().getOwner().getName());
+				insertNominalIntoMap(destination_mappings, pac.getDestination().getOwner().getName());
+				insertNominalIntoMap(source_mappings, pac.getSource().getOwner().getName());
+				insertNominalIntoMap(source_mappings, pac.getDestination().getOwner().getName());
+				insertNominalIntoMap(protocol_mappings, pac.getProtocolName());
+			}
+			//TODO: Add packet/Link/Names etc. to mappings
+		}
+	}
+	
+	/**
+	 * Finishes the collection and trains the clusterer on the collected packets
+	 * 
+	 * @throws Exception
+	 */
+	protected void finishDataCollection() throws Exception{
+		/**
+		printHashSet("Link-Name", link_mappings);
+		printHashSet("Source-Device", source_mappings);
+		printHashSet("Destination-Port", destination_mappings);
+		printHashSet("Protocol-name", protocol_mappings);
+		*/
+		atts.add(new Attribute("Link-Name", new LinkedList<String>(link_mappings)));//TODO:??
+		atts.add(new Attribute("Source-Device", new LinkedList<String>(source_mappings)));
+		atts.add(new Attribute("Source-Port-number", false));
+		atts.add(new Attribute("Destination-Device", new LinkedList<String>(destination_mappings)));
+		atts.add(new Attribute("Destination-Port-number", false));
+		Attribute pn = new Attribute("Protocol-name", new LinkedList<String>(protocol_mappings));
+		//pn.setWeight(10);
+		atts.add(pn);
+		Attribute pps = new Attribute("Packets-per-second", false);
+		//pps.setWeight(20);
+		atts.add(pps);
+		atts.add(new Attribute("PacketValue", false));
+		//atts.add(new Attribute("Anomaly", false));
+		
+		// TODO: Sensor Attribute, given as side channel information
+		atts.add(new Attribute("SensorValue", false));
+
+		/*
+		atts = new ArrayList<Attribute>();
+		atts.add(new Attribute("LN", new LinkedList<String>(link_mappings)));//TODO:??
+		atts.add(new Attribute("SD", new LinkedList<String>(source_mappings)));
+		atts.add(new Attribute("SPN", false));
+		atts.add(new Attribute("DD", new LinkedList<String>(destination_mappings)));
+		atts.add(new Attribute("DPN", false));
+		atts.add(new Attribute("PN", new LinkedList<String>(protocol_mappings)));
+		atts.add(new Attribute("PPS", false));
+		atts.add(new Attribute("A", false));*/
+		dataset = new Instances("Packets", atts, 100000);
+		//dataset.setClassIndex(7);
+
+		/**
+		 * Add Instances to dataset
+		 */
+		for (Iterator<Entry<Link, LinkedList<Packet>>> it = collectedPackets.entrySet().iterator(); it.hasNext();) {
+			Entry<Link, LinkedList<Packet>> entry = it.next();
+			/**
+			 * Link the packet was captured on
+			 */
+			Link l = entry.getKey();
+			for (Iterator<Packet> itPacket = entry.getValue().iterator(); itPacket.hasNext();) {
+				/**
+				 * Packets to be added to the dataset
+				 */
+				Packet packet = (Packet) itPacket.next();
+				dataset.add(packet2Instance(l, packet, dataset));
+			}
+		}
+		
+		trainModel(dataset);
+	}
+	
+	private void printHashSet(String name, HashSet<String> toPrint) {
+		System.out.println(name+":");
+		for (Iterator<String> iterator = toPrint.iterator(); iterator.hasNext();) {
+			String string = (String) iterator.next();
+			System.out.print(string);
+			if(iterator.hasNext())
+				System.out.print(", ");
+		}
+		System.out.println();
+	}
+	/**
+	 * Try to classify the given packets and detect anomalies
+	 * @param packets packets to be classified
+	 */
+	protected void classify(HashMap<Link, LinkedList<Packet>> packets) {
+		File anomalyResults = new File("results/"+getCurrentScenario() + scenarioRun + ".csv");
+		anomalyResults.getParentFile().mkdir();
+		BufferedWriter writer = null;
+		try {
+			writer = new BufferedWriter(new FileWriter(anomalyResults));
+			writer.write("PacketRepresentation,anomalyFPorTP,sensorInfo\n");
+		} catch (IOException e1) {
+			// TODO Auto-generated catch block
+			e1.printStackTrace();
+		}
+		int tp = 0;
+		int fp = 0;
+		int tn = 0;
+		int fn = 0;
+		long start = Long.MAX_VALUE;
+		long end = Long.MIN_VALUE;
+		for (Iterator<Entry<Link, LinkedList<Packet>>> it = packets.entrySet().iterator(); it.hasNext();) {
+			/**
+			 * Link & its packets
+			 */
+			Entry<Link, LinkedList<Packet>> entry = it.next();
+			/**
+			 * Link the packets were captured on
+			 */
+			Link l = entry.getKey();
+			for (Iterator<Packet> itPacket = entry.getValue().iterator(); itPacket.hasNext();) {
+				/**
+				 * Packet which should be checked
+				 */
+				Packet packet = (Packet) itPacket.next();
+
+				start = Math.min(start, packet.getTimestamp());
+				end = Math.max(end, packet.getTimestamp());
+				/**
+				 * Instance Representation
+				 */
+				Instance packet_instance = packet2Instance(l, packet, dataset);
+				
+				if(packet_instance == null)continue;
+				String sensorLabel = "";
+				if(packet instanceof MQTTpublishPacket) { 
+					MQTTpublishPacket mqttPac = (MQTTpublishPacket)packet;
+					sensorLabel = ""+mqttPac.getSensorValue();
+					if(mqttPac.isBoolean()) {
+						sensorLabel = "" + Boolean.parseBoolean(sensorLabel);
+					}
+					sensorLabel = ","+sensorLabel;
+				}
+				
+				try {
+					double dist = classifyInstance(packet_instance, packet);	
+					if(dist<=1.0) {
+						if(packet.getLabel()==0)
+							tn++;
+						else {
+							fn++;
+							writer.write(packet.getTextualRepresentation()+",FN"+sensorLabel+"\n");
+							//System.out.println(packet.getTextualRepresentation()+",AnomalyNotFound"+sensorLabel);
+						}
+					}else {
+						if(packet.getLabel()==0) {
+							fp++;
+							writer.write(packet.getTextualRepresentation()+",FP"+sensorLabel+"\n");
+						} else {
+							tp++;
+							writer.write(packet.getTextualRepresentation()+",TP"+sensorLabel+"\n");
+						}
+					}
+				} catch (Exception e) {
+					if(packet.getLabel()==0) {
+						fp++;
+						try {
+							writer.write(packet.getTextualRepresentation()+",FP"+sensorLabel+"\n");
+						} catch (IOException e1) {
+							// TODO Auto-generated catch block
+							e1.printStackTrace();
+						}
+					} else {
+						tp++;
+						try {
+							writer.write(packet.getTextualRepresentation()+",TP"+sensorLabel+"\n");
+						} catch (IOException e1) {
+							// TODO Auto-generated catch block
+							e1.printStackTrace();
+						}
+					}
+				}
+			}	
+		}
+		int n = tp+tn+fp+fn;
+		if(n!=0) {
+			System.out.println(getAlgoName()+" Performance: ["+start+"ms, "+end+"ms] Scenario: " + getCurrentScenario() + scenarioRun);
+			scenarioRun++;
+			System.out.println("n: "+n);
+			System.out.println("TP: "+tp);
+			System.out.println("FP: "+fp);
+			System.out.println("TN: "+tn);
+			System.out.println("FN: "+fn);
+			System.out.println("TPR: "+(tp/(tp+fn+0.0)));
+			System.out.println("FPR: "+(fp/(fp+tn+0.0)));
+			System.out.println("");
+		}
+		try {
+			writer.close();
+		} catch (IOException e) {
+			// TODO Auto-generated catch block
+			e.printStackTrace();
+		}
+	}
+	
+	/**
+	 * Train the model using the given instances
+	 * @param instances training set, which should be learned
+	 */
+	public abstract void trainModel(Instances instances);
+	
+	/**
+	 * classifies the given instance
+	 * @param instance instance which should be classified
+	 * @param origin original packet, which was transformed into the instance
+	 * @return distance to next centroid
+	 * @throws Exception if anomaly was detected
+	 */
+	public abstract double classifyInstance(Instance instance, Packet origin) throws Exception;
+	
+	/**
+	 * Returns the timestep, after which the classifier should start classifying instead of training.
+	 * @return timestep of the testing begin.
+	 */
+	public abstract long getClassificationStart();
+	
+	@Override
+	public void setMode(boolean testing) {
+		training = !testing;
+		if(testing) {
+			try {
+				finishDataCollection();
+			} catch (Exception e) {
+				System.out.println("Clustering failed");
+				e.printStackTrace();
+			}	
+		}
+	}
+	
+	@Override
+	public boolean getMode() {
+		return !training;
+	}
+	
+	/**
+	 * Short String representation of the classifier
+	 * @return
+	 */
+	public abstract String getAlgoName();
+
+	/**
+	 * @return the currentScenario
+	 */
+	public String getCurrentScenario() {
+		return currentScenario;
+	}
+
+	/**
+	 * @param currentScenario the currentScenario to set
+	 */
+	public void setCurrentScenario(String currentScenario) {
+		this.currentScenario = currentScenario;
+		this.scenarioRun = 0;
+	}
+}

+ 1 - 1
src/main/java/de/tu_darmstadt/tk/SmartHomeNetworkSim/evaluation/SWCKMeansClustering.java

@@ -117,6 +117,6 @@ public class SWCKMeansClustering extends BasicPacketClassifier {
 
 	@Override
 	public String getAlgoName() {
-		return "KNN";
+		return "KNN without InfoLabels";
 	}
 }

+ 122 - 0
src/main/java/de/tu_darmstadt/tk/SmartHomeNetworkSim/evaluation/SWCKMeansClusteringWithLabels.java

@@ -0,0 +1,122 @@
+package de.tu_darmstadt.tk.SmartHomeNetworkSim.evaluation;
+
+import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.Packet;
+import weka.clusterers.SimpleKMeans;
+import weka.core.Instance;
+import weka.core.Instances;
+import weka.core.SelectedTag;
+
+/**
+ * Unsupervised Example: K Means Clustering
+ *
+ * @author Andreas T. Meyer-Berg
+ */
+public class SWCKMeansClusteringWithLabels extends BasicPacketClassifierWitLabels {
+
+	/**
+	 * Clusterer
+	 */
+	private SimpleKMeans clusterer;
+
+	/**
+	 * Number of Clusters
+	 */ 
+	//17 works fine
+	//34 found value anomalies
+	protected int NUMBER_OF_CLUSTERS = 40;
+	protected double[] stdv = new double[NUMBER_OF_CLUSTERS];
+	/**
+	 * Initializes the k means clusterer
+	 */
+	public SWCKMeansClusteringWithLabels() {
+		super();
+		clusterer = new SimpleKMeans();
+		clusterer.setSeed(42);
+		//clusterer.setDisplayStdDevs(true);
+		clusterer.setInitializationMethod(new SelectedTag(SimpleKMeans.FARTHEST_FIRST,SimpleKMeans.TAGS_SELECTION));
+		//clusterer.setCanopyPeriodicPruningRate(100);
+		//clusterer.setCanopyT1(0.001);
+		//clusterer.setCanopyT2(0.1);
+		try {
+			clusterer.setNumClusters(this.NUMBER_OF_CLUSTERS);
+		} catch (Exception e) {
+			System.out.println("Error while building cluster");
+			e.printStackTrace();
+		}
+	}
+
+	@Override
+	public void trainModel(Instances instances) {
+		try {
+			clusterer.buildClusterer(instances);
+			double[] sumOfSquares = new double[NUMBER_OF_CLUSTERS];
+			for(Instance i: instances) {
+				/**
+				 * Id of the closest cluster centroid
+				 */
+				int x = clusterer.clusterInstance(i);
+				/**
+				 * centroid instance
+				 */
+				Instance center = clusterer.getClusterCentroids().get(x);
+				/**
+				 * Distance
+				 */
+				double dist = clusterer.getDistanceFunction().distance(center, i);
+				sumOfSquares[x] += dist*dist;
+			}
+			/**
+			 * Calculate Standard Deviations
+			 */
+			for(int i = 0; i<NUMBER_OF_CLUSTERS; i++)
+				this.stdv[i] = Math.sqrt(sumOfSquares[i]);
+		} catch (Exception e) {
+			System.out.println("Failed while training the classifier");
+			e.printStackTrace();
+		}
+	}
+	private boolean test = false;
+	
+	@Override
+	public double classifyInstance(Instance instance, Packet origin) throws Exception {
+		/**
+		 * Id of the closest cluster centroid
+		 */
+		int x = clusterer.clusterInstance(instance);
+		/**
+		 * centroid instance
+		 */
+		Instance center = clusterer.getClusterCentroids().get(x);
+		
+		double dist = clusterer.getDistanceFunction().distance(center, instance);
+		if(test && dist<stdv[x] && origin.getLabel()!=0) {
+			test = false;
+			System.out.println("Analysis of: "+origin.getTextualRepresentation());
+			System.out.println("Classified as: "+x+" Dist: "+dist+" Stdv: "+stdv[x]);
+			for(int i=0; i<NUMBER_OF_CLUSTERS; i++) {
+				Instance centroid = clusterer.getClusterCentroids().get(i);
+				if(centroid == null)continue;
+				double d = clusterer.getDistanceFunction().distance(centroid, instance);
+				
+				System.out.println("Cluster: "+i+" Dist: "+d+" Stdv: "+stdv[i]);
+			}
+			test = false;
+			System.out.println("");
+		}
+		if(dist < stdv[x])
+			return 0;
+		else
+			return Double.MAX_VALUE;
+		
+	}
+
+	@Override
+	public long getClassificationStart() {
+		return 3600000;
+	}
+
+	@Override
+	public String getAlgoName() {
+		return "KNN with InfoLabels";
+	}
+}

+ 20 - 25
src/main/java/de/tu_darmstadt/tk/SmartHomeNetworkSim/view/menuBar/MenuBarNetworkExamples.java

@@ -47,6 +47,7 @@ import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.simpleImplementation.Manipula
 import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.simpleImplementation.SimpleLink;
 import de.tu_darmstadt.tk.SmartHomeNetworkSim.core.simpleImplementation.SimpleProtocol;
 import de.tu_darmstadt.tk.SmartHomeNetworkSim.evaluation.SWCKMeansClustering;
+import de.tu_darmstadt.tk.SmartHomeNetworkSim.evaluation.SWCKMeansClusteringWithLabels;
 
 public class MenuBarNetworkExamples extends JMenu{
 
@@ -942,24 +943,12 @@ public class MenuBarNetworkExamples extends JMenu{
 			/**
 			 * Instances of the packet Sniffers
 			 */
-			SWCKMeansClustering snifferKNN = null; //, snifferEM = null, snifferHC = null;
-			/*
-			 * Import Example PacketSniffer algorithms
-			 */
-			/*
-			Class<? extends PacketSniffer> em = (Class<? extends PacketSniffer>) ImportController.importJavaClass(new File("examples/classifier/EMClustering.java"));
-			snifferEM = em.newInstance();
+			SWCKMeansClusteringWithLabels snifferKNNwithLabels = new SWCKMeansClusteringWithLabels();
+			SWCKMeansClustering snifferKNNnoLabels = new SWCKMeansClustering();
 
-			Class<? extends PacketSniffer> hc = (Class<? extends PacketSniffer>) ImportController.importJavaClass(new File("examples/classifier/HierarchicalClustering.java"));
-			snifferHC = hc.newInstance();*/
-			
-			snifferKNN = new SWCKMeansClustering();
-			
-			System.out.println("Check 2: Imported");//TODO
-			/*
-			 * Create collectors
-			 */
-			PacketCollector collectorKNN = new PacketCollector(snifferKNN);
+
+			PacketCollector collectorKNNwithLabels = new PacketCollector(snifferKNNwithLabels);
+			PacketCollector collectorKNNnoLabels = new PacketCollector(snifferKNNnoLabels);
 			//PacketCollector collectorEM = new PacketCollector(snifferEM);
 			//PacketCollector collectorHC = new PacketCollector(snifferHC);
 			
@@ -969,10 +958,12 @@ public class MenuBarNetworkExamples extends JMenu{
 			PacketCaptureController captureController = controller.getSimulationController().getPacketCaptureController();
 			//captureController.addLinkToCollector(collectorEM, zigbee);
 			//captureController.addLinkToCollector(collectorKNN, zigbee);
-			captureController.addDeviceToCollector(collectorKNN, smartLight);
-			captureController.addDeviceToCollector(collectorKNN, heaterDevice);
-			//captureController.addLinkToCollector(collectorHC, zigbee);
-			captureController.addPacketCollector(collectorKNN);
+			captureController.addDeviceToCollector(collectorKNNwithLabels, smartLight);
+			captureController.addDeviceToCollector(collectorKNNwithLabels, heaterDevice);
+			captureController.addPacketCollector(collectorKNNwithLabels);
+			captureController.addDeviceToCollector(collectorKNNnoLabels, smartLight);
+			captureController.addDeviceToCollector(collectorKNNnoLabels, heaterDevice);
+			captureController.addPacketCollector(collectorKNNnoLabels);
 			//captureController.addPacketCollector(collectorEM);
 			//captureController.addPacketCollector(collectorHC);
 
@@ -1042,7 +1033,8 @@ public class MenuBarNetworkExamples extends JMenu{
 			/*
 			 * Start Classifying 
 			 */
-			collectorKNN.setMode(true);
+			collectorKNNwithLabels.setMode(true);
+			collectorKNNnoLabels.setMode(true);
 			//collectorEM.setMode(true);
 			//collectorHC.setMode(true);
 			new_time = System.currentTimeMillis();
@@ -1055,7 +1047,8 @@ public class MenuBarNetworkExamples extends JMenu{
 			/*
 			 * Simulate/Test 2 hour without anomalies
 			 */
-			snifferKNN.setCurrentScenario("NoAnomalies");
+			snifferKNNwithLabels.setCurrentScenario("NoAnomalies");
+			snifferKNNnoLabels.setCurrentScenario("NoAnomalies");
 			System.out.println("Test w/0 anomalies:");//TODO
 			while(currentSimTime<noAnomEnd) {
 				sim.getSimulationManager().simulateTimeIntervall(currentSimTime, stepLength);
@@ -1071,7 +1064,8 @@ public class MenuBarNetworkExamples extends JMenu{
 			 * Light Anomaly 1h
 			 * Light != Sensor
 			 */
-			snifferKNN.setCurrentScenario("LightAnomalies");
+			snifferKNNwithLabels.setCurrentScenario("LightAnomalies");
+			snifferKNNnoLabels.setCurrentScenario("LightAnomalies");
 			System.out.println("Light Anomaly:");
 			smartLight.setTrueStatus(!smartLight.getBSval());
 			smartLight.setLabel((short)-1);
@@ -1111,7 +1105,8 @@ public class MenuBarNetworkExamples extends JMenu{
 			/**
 			 * Temperature Anomaly 2h
 			 */
-			snifferKNN.setCurrentScenario("TemperatureAnomalies");
+			snifferKNNwithLabels.setCurrentScenario("TemperatureAnomalies");
+			snifferKNNnoLabels.setCurrentScenario("TemperatureAnomalies");
 			System.out.println("Temperature Anomaly:");
 			heaterDevice.setFSval(21f);
 			heaterDevice.setTrueTemperature(34f);