Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am doing some staff with mean shift segmentation. I found the code called EDISON(http://coewww.rutgers.edu/riul/research/code/EDISON/) ,which has implemented a good one. Also, opencv has a function called cvPyrMeanShiftFiltering.

But they are different in the following picture. In the EDISON system, the two parameters are 7 & 6.5. In opencv, I use cvPyrMeanShiftFiltering(result, result, 7, 6.5,level); (result is converted to LUV already) The borders are not clear there in the right image. I also tried level=0...

Can anyone help? I want to achieve the same result with the help of openCV. (I've implemented the clustering step already)

Comparison

share|improve this question

1 Answer 1

up vote 1 down vote accepted

I tried another code from rsbweb...and the effect is much better than openCV!

Here is my new result

Mean Shift Filter

I changed some part of the code, using Luv rather than YIQ to gain better result. The color equation is from easyrgb

Here is my code

import java.awt.image.BufferedImage;
import java.io.File;
import java.io.IOException;

import javax.imageio.ImageIO;


public class test {

public static void main(String[] args) throws IOException {
    BufferedImage img = ImageIO.read(new File("2.png"));
    filterRGBImage(img);
    ImageIO.write(img, "png", new File("3.png"));
}

private static int rad = 10, rad2=rad*rad;
private static double radCol2 = Math.pow(10,2);

private static void RGB2XYZ(double rgb[], double xyz[])
{
    double var_R = ( rgb[0] / 255. ),var_G = ( rgb[1] / 255. ),var_B = ( rgb[2] / 255. ); 

    if ( var_R > 0.04045 ) 
        var_R = Math.pow(( ( var_R + 0.055 ) / 1.055 ),2.4);
    else                   
        var_R = var_R / 12.92;
    if ( var_G > 0.04045 ) 
        var_G = Math.pow( ( var_G + 0.055 ) / 1.055 , 2.4);
    else                   
        var_G = var_G / 12.92;
    if ( var_B > 0.04045 ) 
        var_B = Math.pow( ( var_B + 0.055 ) / 1.055 ,2.4);
    else                   
        var_B = var_B / 12.92;

    var_R = var_R * 100;
    var_G = var_G * 100;
    var_B = var_B * 100;

    xyz[0] = var_R * 0.4124 + var_G * 0.3576 + var_B * 0.1805;
    xyz[1] = var_R * 0.2126 + var_G * 0.7152 + var_B * 0.0722;
    xyz[2] = var_R * 0.0193 + var_G * 0.1192 + var_B * 0.9505;
}

private static void XYZ2RGB(double xyz[], double rgb[])
{
    double var_X = xyz[0] / 100, var_Y = xyz[1] / 100 , var_Z = xyz[2] / 100;

    double var_R = var_X *  3.2406 + var_Y * -1.5372 + var_Z * -0.4986,
            var_G = var_X * -0.9689 + var_Y *  1.8758 + var_Z *  0.0415,
            var_B = var_X *  0.0557 + var_Y * -0.2040 + var_Z *  1.0570;

            if ( var_R > 0.0031308 ) 
                var_R = 1.055 * Math.pow(var_R, 1 / 2.4  ) - 0.055;
            else                     
                var_R = 12.92 * var_R;
            if ( var_G > 0.0031308 ) 
                var_G = 1.055 *  Math.pow(var_G , 1 / 2.4 ) - 0.055;
            else                     
                var_G = 12.92 * var_G;
            if ( var_B > 0.0031308 ) 
                var_B = 1.055 *  Math.pow(var_B ,1 / 2.4 ) - 0.055;
            else                    
                var_B = 12.92 * var_B;

            rgb[0] = var_R * 255;
            rgb[1] = var_G * 255;
            rgb[2] = var_B * 255 ;
}
private static void XYZ2Luv(double xyz[], double luv[])
{
    double var_U = ( 4 * xyz[0] ) / ( xyz[0] + ( 15 * xyz[1] ) + ( 3 * xyz[2] ) ),
            var_V = ( 9 * xyz[1] ) / ( xyz[0] + ( 15 * xyz[1] ) + ( 3 * xyz[2] ) ),
            var_Y = xyz[1] / 100;
    if ( var_Y > 0.008856 ) 
        var_Y = Math.pow(var_Y,  1./3 );
    else                    
        var_Y = ( 7.787 * var_Y ) + ( 16. / 116 );

    double ref_X =  95.047, ref_Y = 100.000, ref_Z = 108.883;

    double ref_U = ( 4 * ref_X ) / ( ref_X + ( 15 * ref_Y ) + ( 3 * ref_Z ) ),
            ref_V = ( 9 * ref_Y ) / ( ref_X + ( 15 * ref_Y ) + ( 3 * ref_Z ) );

    luv[0] = ( 116 * var_Y ) - 16;
    luv[1] = 13 * luv[0] * ( var_U - ref_U );
    luv[2] = 13 * luv[0] * ( var_V - ref_V );
}
private static void Luv2XYZ(double luv[],double xyz[])
{
    double var_Y = ( luv[0] + 16 ) / 116;
            if ( Math.pow(var_Y,3) > 0.008856 )
                var_Y = Math.pow(var_Y,3);
            else                      
                var_Y = ( var_Y - 16./ 116 ) / 7.787;

    double  ref_X =  95.047 ,ref_Y = 100.000,ref_Z = 108.883;

    double      ref_U = ( 4 * ref_X ) / ( ref_X + ( 15 * ref_Y ) + ( 3 * ref_Z ) ),
            ref_V = ( 9 * ref_Y ) / ( ref_X + ( 15 * ref_Y ) + ( 3 * ref_Z ) );

    double var_U = luv[1] / ( 13 * luv[0] ) + ref_U,
            var_V =luv[2] / ( 13 * luv[0] ) + ref_V;

    xyz[1] = var_Y * 100;
    xyz[0] =  - ( 9 * xyz[1] * var_U ) / ( ( var_U - 4 ) * var_V  - var_U * var_V );
    xyz[2] = ( 9 * xyz[1] - ( 15 * var_V * xyz[1]) - ( var_V * xyz[0] ) ) / ( 3 * var_V );      
}
//http://rsbweb.nih.gov/ij/plugins/download/Mean_Shift.java
public static void filterRGBImage(BufferedImage ip) {
    int width = ip.getWidth();
    int height = ip.getHeight();
    double[][][] pixelsf = new double[width][height][3];

    for (int y=0; y<height; y++) {
        for (int x=0; x<width; x++) {
            int argb = ip.getRGB(x,y);

            int r = (argb >> 16) & 0xff;
            int g = (argb >>  8) & 0xff;
            int b = (argb) & 0xff;

            // YIQ
            /*pixelsf[x][y][0] = 0.299f  *r + 0.587f *g + 0.114f  *b;
            pixelsf[x][y][1] = 0.5957f *r - 0.2744f*g - 0.3212f *b; 
            pixelsf[x][y][2] = 0.2114f *r - 0.5226f*g + 0.3111f *b;*/
            double tmp[]={r,g,b},tmp2[]={0,0,0};
            RGB2XYZ(tmp,tmp2);
            XYZ2Luv(tmp2,pixelsf[x][y]);
        }
    }

    double shift = 0;
    int iters = 0;
    for (int y=0; y<height; y++) {
        for (int x=0; x<width; x++) {

            int xc = x;
            int yc = y;
            int xcOld, ycOld;
            double YcOld, IcOld, QcOld;
            double Yc = pixelsf[x][y][0];
            double Ic = pixelsf[x][y][1];
            double Qc = pixelsf[x][y][2];

            iters = 0;
            do {
                xcOld = xc;
                ycOld = yc;
                YcOld = Yc;
                IcOld = Ic;
                QcOld = Qc;

                float mx = 0;
                float my = 0;
                float mY = 0;
                float mI = 0;
                float mQ = 0;
                int num=0;

                for (int ry=-rad; ry <= rad; ry++) {
                    int y2 = yc + ry; 
                    if (y2 >= 0 && y2 < height) {
                        for (int rx=-rad; rx <= rad; rx++) {
                            int x2 = xc + rx; 
                            if (x2 >= 0 && x2 < width) {
                                //if (ry*ry + rx*rx <= rad2) {
                                    double Y2 = pixelsf[x2][y2][0];
                                    double I2 = pixelsf[x2][y2][1];
                                    double Q2 = pixelsf[x2][y2][2];

                                    double dY = Yc - Y2;
                                    double dI = Ic - I2;
                                    double dQ = Qc - Q2;

                                    if (dY*dY+dI*dI+dQ*dQ <= radCol2) {
                                        mx += x2;
                                        my += y2;
                                        mY += Y2;
                                        mI += I2;
                                        mQ += Q2;
                                        num++;
                                    }
                                //}
                            }
                        }
                    }
                }
                double num_ = 1./num;
                Yc = mY*num_;
                Ic = mI*num_;
                Qc = mQ*num_;
                xc = (int) (mx*num_+0.5);
                yc = (int) (my*num_+0.5);
                int dx = xc-xcOld;
                int dy = yc-ycOld;
                double dY = Yc-YcOld;
                double dI = Ic-IcOld;
                double dQ = Qc-QcOld;

                shift = dx*dx+dy*dy+dY*dY+dI*dI+dQ*dQ; 
                iters++;
            }
            while (shift > 3 && iters < 100);

            double tmp[]={Yc,Ic,Qc},tmp2[]={0,0,0};
            Luv2XYZ(tmp,tmp2);
            XYZ2RGB(tmp2,tmp);
            int r_ = (int) tmp[0];
            int g_ = (int) tmp[1];
            int b_ = (int) tmp[2];

            ip.setRGB(x, y, (0xFF<<24)|(r_<<16)|(g_<<8)|b_);
        }

    }
}
}
share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.