Latest revision as of 15:59, 17 January 2022

Example of how to convolve 1D and 2D convolution kernels across an image. Besides providing the kernel, how the border is handled needs to be specified. A normalized kernel will renormalize the

Example Code:

ExampleConvolution.java

Concepts:

Convolution
Spacial filtering

Relevant Examples:

Image Blur

Example Code

/**
 * Several examples demonstrating convolution.
 *
 * @author Peter Abeles
 */
public class ExampleConvolution {

	private static final ListDisplayPanel panel = new ListDisplayPanel();

	public static void main( String[] args ) {
		BufferedImage image = UtilImageIO.loadImageNotNull(UtilIO.pathExample("sunflowers.jpg"));

		GrayU8 gray = ConvertBufferedImage.convertFromSingle(image, null, GrayU8.class);

		convolve1D(gray);
		convolve2D(gray);
		normalize2D(gray);

		ShowImages.showWindow(panel, "Convolution Examples", true);
	}

	/**
	 * Convolves a 1D kernel horizontally and vertically
	 */
	private static void convolve1D( GrayU8 gray ) {
		var kernel = new Kernel1D_S32(2);
		kernel.offset = 1; // specify the kernel's origin
		kernel.data[0] = 1;
		kernel.data[1] = -1;

		var output = new GrayS16(gray.width, gray.height);

		GConvolveImageOps.horizontal(kernel, gray, output, BorderType.EXTENDED);
		panel.addImage(VisualizeImageData.standard(output, null), "1D Horizontal");

		GConvolveImageOps.vertical(kernel, gray, output, BorderType.EXTENDED);
		panel.addImage(VisualizeImageData.standard(output, null), "1D Vertical");
	}

	/**
	 * Convolves a 2D kernel
	 */
	private static void convolve2D( GrayU8 gray ) {
		// By default 2D kernels will be centered around width/2
		var kernel = new Kernel2D_S32(3);
		kernel.set(1, 0, 2);
		kernel.set(2, 1, 2);
		kernel.set(0, 1, -2);
		kernel.set(1, 2, -2);

		// Output needs to handle the increased domain after convolution. Can't be 8bit
		var output = new GrayS16(gray.width, gray.height);

		GConvolveImageOps.convolve(kernel, gray, output, BorderType.EXTENDED);
		panel.addImage(VisualizeImageData.standard(output, null), "2D Kernel");
	}

	/**
	 * Convolves a 2D normalized kernel. This kernel is divided by its sum after computation.
	 */
	private static void normalize2D( GrayU8 gray ) {
		// Create a Gaussian kernel with radius of 3
		Kernel2D_S32 kernel = FactoryKernelGaussian.gaussian2D(GrayU8.class, -1, 3);
		// Note that there is a more efficient way to compute this convolution since it is a separable kernel
		// just use BlurImageOps instead.

		// Since it's normalized it can be saved inside an 8bit image
		var output = new GrayU8(gray.width, gray.height);

		GConvolveImageOps.convolveNormalized(kernel, gray, output);
		panel.addImage(VisualizeImageData.standard(output, null), "2D Normalized Kernel");
	}
}

Difference between revisions of "Example Convolution"

Latest revision as of 15:59, 17 January 2022

Example Code

Navigation menu

Page actions

Page actions

Personal tools

Navigation

Search

Tools

@@ Line 2: / Line 2: @@
 Example Code:
-* [https://github.com/lessthanoptimal/BoofCV/blob/v0.18/examples/src/boofcv/examples/imageprocessing/ExampleConvolution.java ExampleConvolution.java]
+* [https://github.com/lessthanoptimal/BoofCV/blob/v0.40/examples/src/main/java/boofcv/examples/imageprocessing/ExampleConvolution.java ExampleConvolution.java]
 Concepts:
 * Convolution
 * Spacial filtering
+Relevant Examples:
+* [[Example_Image_Blur|Image Blur]]
 = Example Code =
@@ Line 18: / Line 21: @@
 public class ExampleConvolution {
-	public static void main(String[] args) {
+	private static final ListDisplayPanel panel = new ListDisplayPanel();
-		BufferedImage image = UtilImageIO.loadImage("../data/applet/sunflowers.jpg");
-		ImageUInt8 gray = ConvertBufferedImage.convertFromSingle(image, null, ImageUInt8.class);
+	public static void main( String[] args ) {
+		BufferedImage image = UtilImageIO.loadImageNotNull(UtilIO.pathExample("sunflowers.jpg"));
+		GrayU8 gray = ConvertBufferedImage.convertFromSingle(image, null, GrayU8.class);
 		convolve1D(gray);
 		convolve2D(gray);
 		normalize2D(gray);
+		ShowImages.showWindow(panel, "Convolution Examples", true);
 	}
@@ Line 31: / Line 38: @@
 	 * Convolves a 1D kernel horizontally and vertically
 	 */
-	private static void convolve1D(ImageUInt8 gray) {
+	private static void convolve1D( GrayU8 gray ) {
-		ImageBorder<ImageUInt8> border = FactoryImageBorder.general(gray, BorderType.EXTENDED);
+		var kernel = new Kernel1D_S32(2);
-		Kernel1D_I32 kernel = new Kernel1D_I32(2);
 		kernel.offset = 1; // specify the kernel's origin
 		kernel.data[0] = 1;
 		kernel.data[1] = -1;
-		ImageSInt16 output = new ImageSInt16(gray.width,gray.height);
+		var output = new GrayS16(gray.width, gray.height);
-		GConvolveImageOps.horizontal(kernel, gray, output, border);
+		GConvolveImageOps.horizontal(kernel, gray, output, BorderType.EXTENDED);
-		ShowImages.showWindow(VisualizeImageData.standard(output, null), "1D Horizontal");
+		panel.addImage(VisualizeImageData.standard(output, null), "1D Horizontal");
-		GConvolveImageOps.vertical(kernel, gray, output, border);
+		GConvolveImageOps.vertical(kernel, gray, output, BorderType.EXTENDED);
-		ShowImages.showWindow(VisualizeImageData.standard(output, null), "1D Vertical");
+		panel.addImage(VisualizeImageData.standard(output, null), "1D Vertical");
 	}
@@ Line 50: / Line 56: @@
 	 * Convolves a 2D kernel
 	 */
-	private static void convolve2D(ImageUInt8 gray) {
+	private static void convolve2D( GrayU8 gray ) {
 		// By default 2D kernels will be centered around width/2
-		Kernel2D_I32 kernel = new Kernel2D_I32(3);
+		var kernel = new Kernel2D_S32(3);
-		kernel.set(1,0,2);
+		kernel.set(1, 0, 2);
-		kernel.set(2,1,2);
+		kernel.set(2, 1, 2);
-		kernel.set(0,1,-2);
+		kernel.set(0, 1, -2);
-		kernel.set(1,2,-2);
+		kernel.set(1, 2, -2);
-		// Output needs to handle the increased domain after convolution.  Can't be 8bit
+		// Output needs to handle the increased domain after convolution. Can't be 8bit
-		ImageSInt16 output = new ImageSInt16(gray.width,gray.height);
+		var output = new GrayS16(gray.width, gray.height);
-		ImageBorder<ImageUInt8> border = FactoryImageBorder.general(gray, BorderType.EXTENDED);
-		GConvolveImageOps.convolve(kernel, gray, output, border);
+		GConvolveImageOps.convolve(kernel, gray, output, BorderType.EXTENDED);
-		ShowImages.showWindow(VisualizeImageData.standard(output, null), "2D Kernel");
+		panel.addImage(VisualizeImageData.standard(output, null), "2D Kernel");
 	}
 	/**
-	 * Convolves a 2D normalized kernel.  This kernel is divided by its sum after computation.
+	 * Convolves a 2D normalized kernel. This kernel is divided by its sum after computation.
 	 */
-	private static void normalize2D(ImageUInt8 gray) {
+	private static void normalize2D( GrayU8 gray ) {
 		// Create a Gaussian kernel with radius of 3
-		Kernel2D_I32 kernel = FactoryKernelGaussian.gaussian2D(ImageUInt8.class, -1, 3);
+		Kernel2D_S32 kernel = FactoryKernelGaussian.gaussian2D(GrayU8.class, -1, 3);
 		// Note that there is a more efficient way to compute this convolution since it is a separable kernel
 		// just use BlurImageOps instead.
 		// Since it's normalized it can be saved inside an 8bit image
-		ImageUInt8 output = new ImageUInt8(gray.width,gray.height);
+		var output = new GrayU8(gray.width, gray.height);
 		GConvolveImageOps.convolveNormalized(kernel, gray, output);
-		ShowImages.showWindow(VisualizeImageData.standard(output, null), "2D Normalized Kernel");
+		panel.addImage(VisualizeImageData.standard(output, null), "2D Normalized Kernel");
 	}
 }
 </syntaxhighlight>