Camera calibration and 3D reconstruction (calib3d module) {#tutorial_table_of_content_calib3d}
==========================================================
Although we get most of our images in a 2D format they do come from a 3D world. Here you will learn how to find out 3D world information from 2D images.
- @subpage tutorial_camera_calibration_pattern
*Languages:* Python
*Compatibility:* \> OpenCV 2.0
*Author:* Laurent Berger
You will learn how to create some calibration pattern.
- @subpage tutorial_camera_calibration_square_chess
*Languages:* C++
*Compatibility:* \> OpenCV 2.0
*Author:* Victor Eruhimov
You will use some chessboard images to calibrate your camera.
- @subpage tutorial_camera_calibration
*Languages:* C++
*Compatibility:* \> OpenCV 2.0
*Author:* Bernát Gábor
Camera calibration by using either the chessboard, circle or the asymmetrical circle
pattern. Get the images either from a camera attached, a video file or from an image
collection.
- @subpage tutorial_real_time_pose
*Languages:* C++
*Compatibility:* \> OpenCV 2.0
*Author:* Edgar Riba
Real time pose estimation of a textured object using ORB features, FlannBased matcher, PnP
approach plus Ransac and Linear Kalman Filter to reject possible bad poses.
- @subpage tutorial_interactive_calibration
*Compatibility:* \> OpenCV 3.1
*Author:* Vladislav Sovrasov
Camera calibration by using either the chessboard, chAruco, asymmetrical circle or dual asymmetrical circle
pattern. Calibration process is continuous, so you can see results after each new pattern shot.
As an output you get average reprojection error, intrinsic camera parameters, distortion coefficients and
confidence intervals for all of evaluated variables.