Difference between revisions of "Example Detect Lines"

From BoofCV
Jump to navigationJump to search
m
m
Line 1: Line 1:
= Detect Interest Point Example =
<center>
<center>
<gallery widths=300px heights=240px>
<gallery widths=300px heights=240px>

Revision as of 19:14, 5 December 2012

Lines are commonly found in man made environments. They can often be detected in location where other feature cannot due to the environments sparsity. Typical applications are for location targets and for evaluating the 3D structure of a building. Mathematically, a line has no end points and a line detector in BoofCV does not detect end points either. BoofCV does provide ways to detect line segments, which are lines with a beginning and end.

Line and line segment detection is still under development. No highly abstract and simplified interface is provided yet. Even though its under development still, these algorithms are still effective at detecting lines and line segments.

Example Code:

Concepts:

  • Line detection
  • Line segment detection

Relevant Applets:

Example Code

public class ExampleLineDetection {

	// adjusts edge threshold for identifying pixels belonging to a line
	private static final float edgeThreshold = 25;
	// adjust the maximum number of found lines in the image
	private static final int maxLines = 10;

	/**
	 * Detects lines inside the image using different types of Hough detectors
	 *
	 * @param image Input image.
	 * @param imageType Type of image processed by line detector.
	 * @param derivType Type of image derivative.
	 */
	public static<T extends ImageSingleBand, D extends ImageSingleBand>
			void detectLines( BufferedImage image , 
							  Class<T> imageType ,
							  Class<D> derivType )
	{
		// convert the line into a single band image
		T input = ConvertBufferedImage.convertFromSingle(image, null, imageType );

		// Comment/uncomment to try a different type of line detector
		DetectLineHoughPolar<T,D> detector = FactoryDetectLineAlgs.houghPolar(3, 30, 2, Math.PI / 180,
				edgeThreshold, maxLines, imageType, derivType);
//		DetectLineHoughFoot<T,D> detector = FactoryDetectLineAlgs.houghFoot(3, 8, 5, edgeThreshold,
//				maxLines, imageType, derivType);
//		DetectLineHoughFootSubimage<T,D> detector = FactoryDetectLineAlgs.houghFootSub(3, 8, 5, edgeThreshold,
//				maxLines, 2, 2, imageType, derivType);

		List<LineParametric2D_F32> found = detector.detect(input);

		// display the results
		ImageLinePanel gui = new ImageLinePanel();
		gui.setBackground(image);
		gui.setLines(found);
		gui.setPreferredSize(new Dimension(image.getWidth(),image.getHeight()));

		ShowImages.showWindow(gui,"Found Lines");
	}

	/**
	 * Detects segments inside the image
	 *
	 * @param image Input image.
	 * @param imageType Type of image processed by line detector.
	 * @param derivType Type of image derivative.
	 */
	public static<T extends ImageSingleBand, D extends ImageSingleBand>
	void detectLineSegments( BufferedImage image ,
							 Class<T> imageType ,
							 Class<D> derivType )
	{
		// convert the line into a single band image
		T input = ConvertBufferedImage.convertFromSingle(image, null, imageType );

		// Comment/uncomment to try a different type of line detector
		DetectLineSegmentsGridRansac<T,D> detector = FactoryDetectLineAlgs.lineRansac(40, 30, 2.36, true, imageType, derivType);

		List<LineSegment2D_F32> found = detector.detect(input);

		// display the results
		ImageLinePanel gui = new ImageLinePanel();
		gui.setBackground(image);
		gui.setLineSegments(found);
		gui.setPreferredSize(new Dimension(image.getWidth(),image.getHeight()));

		ShowImages.showWindow(gui,"Found Line Segments");
	}
	
	public static void main( String args[] ) {
		BufferedImage input = UtilImageIO.loadImage("../data/evaluation/simple_objects.jpg");

		detectLines(input,ImageUInt8.class,ImageSInt16.class);

		// line segment detection is still under development and only works for F32 images right now
		detectLineSegments(input, ImageFloat32.class, ImageFloat32.class);
	}
}