Difference between revisions of "Example Stereo Disparity 3D"
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* [https://github.com/lessthanoptimal/BoofCV/blob/v0. | * [https://github.com/lessthanoptimal/BoofCV/blob/v0.20/examples/src/boofcv/examples/stereo/ExampleStereoDisparity3D.java ExampleStereoDisparity3D.java] | ||
Concepts: | Concepts: | ||
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// Load camera images and stereo camera parameters | // Load camera images and stereo camera parameters | ||
String calibDir = " | String calibDir = UtilIO.pathExample("calibration/stereo/Bumblebee2_Chess/"); | ||
String imageDir = " | String imageDir = UtilIO.pathExample("stereo/"); | ||
StereoParameters param = UtilIO.loadXML(calibDir | StereoParameters param = UtilIO.loadXML(calibDir , "stereo.xml"); | ||
// load and convert images into a BoofCV format | // load and convert images into a BoofCV format | ||
BufferedImage origLeft = UtilImageIO.loadImage(imageDir | BufferedImage origLeft = UtilImageIO.loadImage(imageDir , "chair01_left.jpg"); | ||
BufferedImage origRight = UtilImageIO.loadImage(imageDir | BufferedImage origRight = UtilImageIO.loadImage(imageDir , "chair01_right.jpg"); | ||
ImageUInt8 distLeft = ConvertBufferedImage.convertFrom(origLeft, (ImageUInt8) null); | ImageUInt8 distLeft = ConvertBufferedImage.convertFrom(origLeft, (ImageUInt8) null); |
Revision as of 09:33, 9 November 2015
An additional example for stereo disparity. This one shows you how to properly resize input images and convert the disparity image into a 3D point cloud.
Example Code:
Concepts:
- Stereo disparity
- Point clouds
Relevant Applets:
Related Examples:
Example Code
/**
* Expanding upon ExampleStereoDisparity, this example demonstrates how to rescale an image for stereo processing and
* then compute its 3D point cloud. Images are often rescaled to improve speed and some times quality. Creating
* 3D point clouds from disparity images is easy and well documented in the literature, but there are some nuances
* to it.
*
* @author Peter Abeles
*/
public class ExampleStereoDisparity3D {
// Specifies what size input images are scaled to
public static final double scale = 0.5;
// Specifies what range of disparity is considered
public static final int minDisparity = 0;
public static final int maxDisparity = 40;
public static final int rangeDisparity = maxDisparity-minDisparity;
public static void main( String args[] ) {
// ------------- Compute Stereo Correspondence
// Load camera images and stereo camera parameters
String calibDir = UtilIO.pathExample("calibration/stereo/Bumblebee2_Chess/");
String imageDir = UtilIO.pathExample("stereo/");
StereoParameters param = UtilIO.loadXML(calibDir , "stereo.xml");
// load and convert images into a BoofCV format
BufferedImage origLeft = UtilImageIO.loadImage(imageDir , "chair01_left.jpg");
BufferedImage origRight = UtilImageIO.loadImage(imageDir , "chair01_right.jpg");
ImageUInt8 distLeft = ConvertBufferedImage.convertFrom(origLeft, (ImageUInt8) null);
ImageUInt8 distRight = ConvertBufferedImage.convertFrom(origRight,(ImageUInt8)null);
// re-scale input images
ImageUInt8 scaledLeft = new ImageUInt8((int)(distLeft.width*scale),(int)(distLeft.height*scale));
ImageUInt8 scaledRight = new ImageUInt8((int)(distRight.width*scale),(int)(distRight.height*scale));
new FDistort(distLeft,scaledLeft).scaleExt().apply();
new FDistort(distRight,scaledRight).scaleExt().apply();
// Don't forget to adjust camera parameters for the change in scale!
PerspectiveOps.scaleIntrinsic(param.left, scale);
PerspectiveOps.scaleIntrinsic(param.right,scale);
// rectify images and compute disparity
ImageUInt8 rectLeft = new ImageUInt8(scaledLeft.width,scaledLeft.height);
ImageUInt8 rectRight = new ImageUInt8(scaledRight.width,scaledRight.height);
RectifyCalibrated rectAlg = ExampleStereoDisparity.rectify(scaledLeft,scaledRight,param,rectLeft,rectRight);
// ImageUInt8 disparity = ExampleStereoDisparity.denseDisparity(rectLeft, rectRight, 3,minDisparity, maxDisparity);
ImageFloat32 disparity = ExampleStereoDisparity.denseDisparitySubpixel(rectLeft, rectRight, 3, minDisparity, maxDisparity);
// ------------- Convert disparity image into a 3D point cloud
// The point cloud will be in the left cameras reference frame
DenseMatrix64F rectK = rectAlg.getCalibrationMatrix();
DenseMatrix64F rectR = rectAlg.getRectifiedRotation();
// used to display the point cloud
PointCloudViewer viewer = new PointCloudViewer(rectK, 10);
viewer.setPreferredSize(new Dimension(rectLeft.width,rectLeft.height));
// extract intrinsic parameters from rectified camera
double baseline = param.getBaseline();
double fx = rectK.get(0,0);
double fy = rectK.get(1,1);
double cx = rectK.get(0,2);
double cy = rectK.get(1,2);
// Iterate through each pixel in disparity image and compute its 3D coordinate
Point3D_F64 pointRect = new Point3D_F64();
Point3D_F64 pointLeft = new Point3D_F64();
for( int y = 0; y < disparity.height; y++ ) {
for( int x = 0; x < disparity.width; x++ ) {
double d = disparity.unsafe_get(x,y) + minDisparity;
// skip over pixels were no correspondence was found
if( d >= rangeDisparity )
continue;
// Coordinate in rectified camera frame
pointRect.z = baseline*fx/d;
pointRect.x = pointRect.z*(x - cx)/fx;
pointRect.y = pointRect.z*(y - cy)/fy;
// rotate into the original left camera frame
GeometryMath_F64.multTran(rectR, pointRect, pointLeft);
// add pixel to the view for display purposes and sets its gray scale value
int v = rectLeft.unsafe_get(x, y);
viewer.addPoint(pointLeft.x, pointLeft.y, pointLeft.z, v << 16 | v << 8 | v);
}
}
// display the results. Click and drag to change point cloud camera
BufferedImage visualized = VisualizeImageData.disparity(disparity, null,minDisparity, maxDisparity,0);
ShowImages.showWindow(visualized,"Disparity");
ShowImages.showWindow(viewer,"Point Cloud");
}
}