Difference between revisions of "Example Equirectangular To Pinhole"
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Related Examples: | Related Examples: | ||
* [[Example_Fisheye_To_Equirectangular|Fisheye to Equirectangular]] | * [[Example_Fisheye_To_Equirectangular|Fisheye to Equirectangular]] | ||
Videos: | |||
* [https://youtu.be/qMTtdiujAtQ?t=150 Video of Demonstration] | |||
= Example Code = | = Example Code = |
Revision as of 09:48, 5 January 2017
Equirectangular images encode a full 360 view inside a rectangular image. This creates a highly distorted view, which can be visually displeasing and can't be processed directly by computer vision algorithms. Part of the view can be rendered inside a synthetic pinhole camera. The synthetic view could then be feed to fiducial detection algorithms, SFM, ... etc. This example shows to generate the synthetic pinhole camera view at an arbtirary orientation and intrinsic parameters.
Example File: ExampleEquirectangularToPinhole.java
Concepts:
- Spherical View
- Pinhole Camera
Related Examples:
Videos:
Example Code
/**
* Demonstration for how to project a synthetic pinhole camera view given an equirectangular image. To
* specify the projection the camera model needs to be configured and the orientation of the view needs to bet set.
*
* @author Peter Abeles
*/
public class ExampleEquirectangularToPinhole {
public static void main(String[] args) {
// Specify what the pinhole camera should look like
CameraPinhole pinholeModel = new CameraPinhole(250,250,0,250,250,500,500);
// Load equirectangular RGB image
BufferedImage bufferedEqui =
UtilImageIO.loadImage(UtilIO.pathExample("spherical/equirectangular_half_dome_01.jpg"));
Planar<GrayU8> equiImage =
ConvertBufferedImage.convertFrom(bufferedEqui, true, ImageType.pl(3,GrayU8.class));
// Declare storage for pinhole camera image
Planar<GrayU8> pinholeImage = equiImage.createNew(pinholeModel.width, pinholeModel.height);
// Create the image distorter which will render the image
InterpolatePixel<Planar<GrayU8>> interp = FactoryInterpolation.
createPixel(0, 255, InterpolateType.BILINEAR, BorderType.EXTENDED, equiImage.getImageType());
ImageDistort<Planar<GrayU8>,Planar<GrayU8>> distorter =
FactoryDistort.distort(false,interp,equiImage.getImageType());
// This is where the magic is done. It defines the transform rfom equirectangular to pinhole
EquirectangularToPinhole_F32 equiToPinhole = new EquirectangularToPinhole_F32();
equiToPinhole.setEquirectangularShape(equiImage.width,equiImage.height);
equiToPinhole.setPinhole(pinholeModel);
// Pass in the transform to the image distorter
distorter.setModel(equiToPinhole);
// change the orientation of the camera to make the view better
ConvertRotation3D_F64.eulerToMatrix(EulerType.YXZ,0, 1.45, 2.2,equiToPinhole.getRotation());
// Render the image
distorter.apply(equiImage,pinholeImage);
BufferedImage bufferedPinhole0 = ConvertBufferedImage.convertTo(pinholeImage,null,true);
// Let's look at another view
ConvertRotation3D_F64.eulerToMatrix(EulerType.YXZ,0, 1.25, -1.25,equiToPinhole.getRotation());
distorter.apply(equiImage,pinholeImage);
BufferedImage bufferedPinhole1 = ConvertBufferedImage.convertTo(pinholeImage,null,true);
// Display the results
ListDisplayPanel panel = new ListDisplayPanel();
panel.addImage(bufferedPinhole0,"Pinehole View 0");
panel.addImage(bufferedPinhole1,"Pinehole View 1");
panel.addImage(bufferedEqui,"Equirectangular");
panel.setPreferredSize(new Dimension(equiImage.width,equiImage.height));
ShowImages.showWindow(panel, "Equirectangular to Pinhole", true);
}
}