Abstract
Orthogonally splitting imaging pose sensor is a new sensor with two orthogonal line array charge coupled devices (CCDs). Owing to its special structure, there are distortion correction and imaging model problems during the calibration procedure. This paper proposes a calibration method based on the general imaging model to solve these problems. The method introduces Plücker Coordinate to describe the mapping relation between the image coordinate system and the world coordinate system. This paper solves the mapping relation with radial basis function interpolation and adaptively selecting control points with Kmeans clustering method to improve the fitting accuracy. This paper determines the appropriate radial basis function and its shape parameter by experiments. And these parameters are used to calibrate the orthogonally splitting imaging pose sensor. According to the calibration result, the root mean square (RMS)of calibration dataset and the RMS of test dataset are 0.048 mm and 0.049 mm. A comparative experiment is conducted between the pinhole imaging model and the general imaging model. Experimental results show that the calibration method based on general imaging model applies to the orthogonally splitting imaging pose sensor. The calibration method requires only one image corresponding to the target in the world coordinates and distortion correction is not required to be taken into account. Compared with the calibration method based on the pinhole imaging model, the calibration procedure based on the general imaging model is easier and accuracy is greater.
Highlights
With the development of advanced industrial equipment intelligence and digitalization, the demand for accurate pose measurement, which can measure a wide range of space targets, is increasing
Compared with the calibration method based on the pinhole imaging model, the calibration procedure based on the general imaging model is easier and accuracy is greater
This paper proposes a calibration method based on general imaging models
Summary
With the development of advanced industrial equipment intelligence and digitalization, the demand for accurate pose measurement, which can measure a wide range of space targets, is increasing. The visual pose measurement has the advantages of non-contact, simplicity, stability, and moderate accuracy. It is widely used in aerospace, machine building, robot navigation and other fields. The visual sensors used in the visual pose measurement system include the area array CCD and the line array CCD. Compared with the area array CCD, the line array CCD has higher resolution and faster speed in vision measurement. The line array CCD can only obtain a one-dimensional image, so multiple line array CCDs are combined to realize the spatial measurement of the target [1,2,3]. In order to satisfy the measurement requirements of a wide range, high precision and fast speed, the orthogonally splitting imaging pose sensor based on line
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