论文信息 - Systematic error analysis and compensation for high accuracy star centroid estimation of star tracker

Systematic error analysis and compensation for high accuracy star centroid estimation of star tracker

Subpixel centroid estimation is the most important star image location method of star tracker. This paper presents a theoretical analysis of the systematic error of subpixel centroid estimation algorithm utilizing frequency domain analysis under the consideration of sampling frequency limitation and sampling window limitation. Explicit expression of systematic error of centroid estimation is obtained, and the dependence of systematic error on Gaussian width of star image, actual star centroid location and the number of sampling pixels is derived. A systematic error compensation algorithm for star centroid estimation is proposed based on the result of theoretical analysis. Simulation results show that after compensation, the residual systematic errors of 3-pixel- and 5-pixel-windows’ centroid estimation are less than 2×10−3 pixels and 2×10−4 pixels respectively.

[1] C. Liebe. Star trackers for attitude determination , 1995 .

[2] Jorge L. C. Sanz. Image Technology: Advances in Image Processing, Multimedia and Machine Vision , 1995 .

[3] Robert B. Fisher,et al. A Comparison of Algorithms for Subpixel Peak Detection , 1996 .

[4] S. B. Grossman,et al. Performance Analysis And Size Optimization Of Focal Planes For Point-Source Tracking Algorithm Applications , 1984 .

[5] Carl Christian Liebe,et al. Accuracy performance of star trackers - a tutorial , 2002 .

[6] Bedabrata Pain,et al. CMOS active pixel sensor specific performance effects on star tracker/imager position accuracy , 2001, SPIE OPTO.

[7] Edwin W. Dennison,et al. Optical tracking using charge-coupled devices , 1987 .

[8] Brian F. Alexander,et al. Elimination of systematic error in subpixel accuracy centroid estimation [also Letter 34(11)3347-3348(Nov1995)] , 1991 .

[9] Richard Hornsey,et al. Determining star-image location: A new sub-pixel interpolation technique to process image centroids , 2007, Comput. Phys. Commun..

[10] Hao Zhi-hang. Research of hyper accuracy subpixel subdivision location algorithm for star image , 2005 .

[11] C. Rao,et al. Accuracy analysis of centroid calculated by a modified center detection algorithm for Shack–Hartmann wavefront sensor , 2008 .