Difference between revisions of "Example Tracker Mean Shift"

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BoofCV provides two mean-shift trackers, histrogram and pixel likelihood, this example is for the second.  It is demonstrated how to create a custom pixel likelihood fuction to track a color ball.  Mean-shift performs a local search that attempts to maximize the similarity of the color in its kernel to the color in its model.  It is a fairly robust and fast tracker.  If you are lucky, it will sometimes even reaquire a track after it has been lost.
BoofCV provides two mean-shift trackers, histogram and pixel likelihood, this example is for the second.  It is demonstrated how to create a custom pixel likelihood fuction to track a color ball.  Mean-shift performs a local search that attempts to maximize the similarity of the color in its kernel to the color in its model.  It is a fairly robust and fast tracker.  If you are lucky, it will sometimes even reaquire a track after it has been lost.


Example Code:
Example Code:

Revision as of 14:20, 22 September 2014

BoofCV provides two mean-shift trackers, histogram and pixel likelihood, this example is for the second. It is demonstrated how to create a custom pixel likelihood fuction to track a color ball. Mean-shift performs a local search that attempts to maximize the similarity of the color in its kernel to the color in its model. It is a fairly robust and fast tracker. If you are lucky, it will sometimes even reaquire a track after it has been lost.

Example Code:

Concepts:

  • Object tracking
  • Color histogram
  • Mean-shift

Relevant Applets:

Example Code

/**
 * Example of how to use the low level implementation of mean-shift to track a specific color provided by the user.
 * The weights of each pixel is computed by RgbLikelihood, see below, and track regions are rectangular.  This
 * tracker works very well since the ball is almost uniformly blue.  If the light varried then a HSV color
 * model might be better.
 *
 * @author Peter Abeles
 */
public class ExampleTrackerMeanShiftLikelihood {

	/**
	 * Very simple implementation of PixelLikelihood.  Uses linear distance to compute how close
	 * a color is to the target color.
	 */
	public static class RgbLikelihood implements PixelLikelihood<MultiSpectral<ImageUInt8>> {

		int targetRed,targetGreen,targetBlue;
		float radius = 35;
		MultiSpectral<ImageUInt8> image;

		public RgbLikelihood(int targetRed, int targetGreen, int targetBlue) {
			this.targetRed = targetRed;
			this.targetGreen = targetGreen;
			this.targetBlue = targetBlue;
		}

		@Override
		public void setImage(MultiSpectral<ImageUInt8> image) {
			this.image = image;
		}

		@Override
		public boolean isInBounds(int x, int y) {
			return image.isInBounds(x,y);
		}

		/**
		 * This function is used to learn the target's model from the select image region.  Since the
		 * model is provided in the constructor it isn't needed or used.
		 */
		@Override
		public void createModel(RectangleLength2D_I32 target) {
			throw new RuntimeException("Not supported");
		}

		@Override
		public float compute(int x, int y) {
			int pixelR = image.getBand(0).get(x,y);
			int pixelG = image.getBand(1).get(x,y);
			int pixelB = image.getBand(2).get(x,y);

			// distance along each color band
			float red = Math.max(0, 1.0f - Math.abs(targetRed - pixelR) / radius);
			float green = Math.max(0,1.0f - Math.abs(targetGreen-pixelG)/radius);
			float blue = Math.max(0,1.0f - Math.abs(targetBlue-pixelB)/radius);

			// multiply them all together
			return red*green*blue;
		}
	}

	public static void main(String[] args) {
		MediaManager media = DefaultMediaManager.INSTANCE;
		String fileName = "../data/applet/tracking/balls_blue_red.mjpeg";
		RectangleLength2D_I32 location = new RectangleLength2D_I32(394,247,475-394,325-247);

		ImageType<MultiSpectral<ImageUInt8>> imageType = ImageType.ms(3,ImageUInt8.class);

		SimpleImageSequence<MultiSpectral<ImageUInt8>> video = media.openVideo(fileName, imageType);

		// Return a higher likelihood for pixels close to this RGB color
		RgbLikelihood likelihood = new RgbLikelihood(64,71,69);

		TrackerMeanShiftLikelihood<MultiSpectral<ImageUInt8>> tracker =
				new TrackerMeanShiftLikelihood<MultiSpectral<ImageUInt8>>(likelihood,50,0.1f);

		// specify the target's initial location and initialize with the first frame
		MultiSpectral<ImageUInt8> frame = video.next();
		// Note that the tracker will not automatically invoke RgbLikelihood.createModel() in its initialize function
		tracker.initialize(frame,location);

		// For displaying the results
		TrackerObjectQuadPanel gui = new TrackerObjectQuadPanel(null);
		gui.setPreferredSize(new Dimension(frame.getWidth(),frame.getHeight()));
		gui.setBackGround((BufferedImage)video.getGuiImage());
		gui.setTarget(location,true);
		ShowImages.showWindow(gui, "Tracking Results");

		// Track the object across each video frame and display the results
		while( video.hasNext() ) {
			frame = video.next();

			boolean visible = tracker.process(frame);

			gui.setBackGround((BufferedImage) video.getGuiImage());
			gui.setTarget(tracker.getLocation(),visible);
			gui.repaint();

			BoofMiscOps.pause(20);
		}
	}
}