Abstract
For the purpose of obtaining high-precision in stereo vision calibration, a large-size precise calibration target, which can cover more than half of the field of view is vital. However, large-scale calibration targets are very difficult to fabricate. Based on the idea of error tracing, a high-precision calibration method for vision system with large field of view by constructing a virtual 3-D calibration target with a laser tracker was proposed in this article. A virtual 3-D calibration target that covers the whole measurement space can be established flexibly and the measurement precision of the vision system can be traceable to the laser tracker. First, virtual 3-D targets by calculating rigid body transformation with unit quaternion method were constructed. Then, the high-order distortion camera model was taken into consideration. Besides, the calibration parameters were solved with Levenberg–Marquardt optimization algorithm. In the experiment, a binocular stereo vision system with the field of view of 4 × 3 × 2 m3 was built for verifying the validity and precision of the proposed calibration method. It is measured that the accuracy with the proposed method can be greatly improved comparing with traditional plane calibration method. The method can be widely used in industrial applications, such as in the field of calibrating large-scale vision-based coordinate metrology, and six-degrees of freedom pose tracking system for dimensional measurement of workpiece, as well as robotics geometrical accuracy detection and compensation.
Highlights
Nowadays, stereo vision system is widely used in the fields of precision industrial metrology and aerospace,[1] due to its characteristics of noncontact, portability, low cost, and informative
Measurement precision is a fundamental performance in a vision metrology system, which is mainly restricted by following factors such as quality of source images, camera calibration method, accuracy of image characteristics extraction, object size and measurement distance, relative
A continuous error tracing chain of high-precision visual system was listed, a method based on the laser tracker was designed, and a virtual stereo target was constructed and a large field high-precision camera was calibrated, based on the idea of error tracing
Summary
Stereo vision system is widely used in the fields of precision industrial metrology and aerospace,[1] due to its characteristics of noncontact, portability, low cost, and informative. Based on the idea of error tracing, a flexible large FOV, high-precision calibration method for vision system by constructing a virtual 3-D calibration target with a laser tracker, is proposed in this article. In view of measurement range, accuracy, and the characteristics of noncontact of large-scale vision metrology system, laser tracker is the best choice of constructing high-precision 3-D target.[22,23]. In order to obtain the 3-D coordinates fX C0; Y C0; ZC0glaser  N of visual feature points on the feature target at the first moving position in the coordinate system of laser tracker measurement, which is necessary for the calibration calculation of the visual measurement system, calculate the rigid body transformation [R T]10 between fX L1; Y L1; ZL1glaser  M and fX L0; Y L0; ZL0glaser  M with unit quaternion method, apply this transformation matrix to 3-D coordinates fX C0; Y C0; ZC0glaser  N of visual feature point in initial. Rotation transformation can be expressed with a unit quaternion z 1⁄4 a þ bi þ cj þ dkða; b; c; d 2 RÞ as equation (1)
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