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Deformation and patching technology and applications in image processing using Java

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Release: 2023-06-18 08:45:27
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With the development of the Internet and digital technology, image processing has become a hot topic in the field of computer technology. One of the core tasks of image processing is image deformation processing and patching technology. There are also many powerful tools and libraries in the Java language that can implement these operations. This article will introduce how to use Java to implement deformation and patching technologies in image processing, and explore their role in practical applications.

1. Image deformation

Image deformation refers to changing the size, shape, orientation, etc. of the image as needed while retaining the main features of the image. It is widely used in image editing, computer vision, medical image processing and other fields. Commonly used image deformations include stretching, rotation, scaling, distortion, etc.

Image deformation processing in Java mainly uses the AffineTransform class in the Graphics2D class. It can perform complex transformations such as translation, rotation, scaling, and tilt on graphic objects to achieve image deformation. For example, to implement the rotation transformation of an image, you can use the following code:

public static BufferedImage rotateImage(BufferedImage image,double degree){
    int width = image.getWidth();
    int height = image.getHeight();
    BufferedImage rotated = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB);
    Graphics2D g = rotated.createGraphics();
    g.rotate(Math.toRadians(degree),width/2,height/2);
    g.drawImage(image,0,0,null);
    g.dispose();
    return rotated;
}
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This function rotates a BufferedImage object and returns a new BufferedImage object. The parameter image is the original image object, and the parameter degree is the angle of image rotation.

2. Patch technology

Image patch technology refers to the technology of making local modifications on the image without destroying the overall structure. It is widely used in image restoration, noise removal, digital photography and other fields, and can help people achieve refined editing of images.

Implementing image patch technology in Java requires the use of image processing algorithms and feature extraction technology. Commonly used image patching technologies include image repair, texture synthesis, image cloning, saliency detection, etc.

For example, the following code implements a simple image texture synthesis patch technology:

public static BufferedImage textureSynthesis(BufferedImage image, int patchSize) {
    int width = image.getWidth();
    int height = image.getHeight();
    BufferedImage output = new BufferedImage(width, height,
            BufferedImage.TYPE_INT_ARGB);
    int bWidth = (int) Math.ceil((double) width / patchSize);
    int bHeight = (int) Math.ceil((double) height / patchSize);
    BufferedImage[] patches = new BufferedImage[bWidth * bHeight];
    for (int x = 0; x < bWidth; x++) {
        for (int y = 0; y < bHeight; y++) {
            int sx = x * patchSize;
            int sy = y * patchSize;
            int sw = Math.min(patchSize, width - sx);
            int sh = Math.min(patchSize, height - sy);
            BufferedImage patch = image.getSubimage(sx, sy, sw, sh);
            patches[x * bHeight + y] = patch;
        }
    }
    Random random = new Random();
    for (int x = 0; x < bWidth; x++) {
        for (int y = 0; y < bHeight; y++) {
            int offset = x * bHeight + y;
            for (int i = 0; i < 10; i++) {
                int u = random.nextInt(bWidth);
                int v = random.nextInt(bHeight);
                int o = u * bHeight + v;
                BufferedImage candidate = patches[o];
                double similarity = getSimilarity(patches[offset],candidate);
                if(similarity > 0.9){
                    Graphics2D g = output.createGraphics();
                    g.drawImage(candidate, x * patchSize, y * patchSize, null);
                    g.dispose();
                    break;
                }
            }
        }
    }
    return output;
}
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This function implements a randomization-based image texture synthesis patch technology. First, the original image is cut into sub-blocks of the same size; then a random method is used to select the sub-block most similar to the original block from the sub-block sequence. Finally, the similar sub-blocks are overlaid on the original blocks to realize the copy of the image texture.

3. Application

Image processing technology has been widely used in modern computer vision, digital media, video surveillance and other fields. Here are some image processing applications implemented using Java:

  1. Picture editing functions in social networks: Using image deformation technology implemented in Java, users can rotate, crop, etc. photos to make them Easier to be shared and disseminated by users.
  2. Image enhancement function in digital photography software: Using image patch technology and filter technology implemented in Java, you can perform operations such as denoising, enhancing, and brightness adjustment on images to optimize image quality.
  3. Image search function in e-commerce websites: Image recognition and similarity matching technology implemented in Java can provide users with more accurate search results and improve user experience.
  4. Medical image processing: Using image segmentation and classification technology implemented in Java, medical images can be refined and processed to provide doctors with more accurate diagnostic results.

In short, the Java language has broad application prospects in the field of image processing. With the continuous advancement of technology and the continuous improvement of software libraries, Java will become one of the important tools in the field of image processing.

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