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Analysis on Double-difference Earthquake Location and the Seismicity Pattern of the Yangjiang Earthquake Sequences
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作者 Kang Ying Yang Xuan Huang Wenhui Chen Xing Chen Guimei Lin Wei Wu Huadeng 《Earthquake Research in China》 2008年第1期73-81,共9页
The locations of about 400 earthquakes in Yangjiang, Guangdong Province are determined using the double, difference earthquake location algorithm (DDA). The seismicity pattern becomes concentrated from discrete grid... The locations of about 400 earthquakes in Yangjiang, Guangdong Province are determined using the double, difference earthquake location algorithm (DDA). The seismicity pattern becomes concentrated from discrete grids. The rupture characteristics of the Yangjiang earthquake sequence show a conjugated distribution in NW and NE directions. The major distribution trends NE and dips NE with an angle of 30^o and a length of 30km,and the minor distribution trends NW and dips SE with an angle of 30^o and a length of 20km. The focal depth is 5km - 15km. The distribution of the Enping earthquake sequence,which is not far from Yangjiang,is NW-trending. The relationship between hypocenter distribution and geological structure is discussed. 展开更多
关键词 Double-difference earthquake location algorithm Location image Rupturecharacteristic Yangjiang earthquake sequences
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Systematic error analysis and compensation for high accuracy star centroid estimation of star tracker 被引量:13
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作者 JIA Hui YANG JianKun +4 位作者 LI XiuJian YANG JunCai YANG MengFei LIU YiWu HAO YunCai 《Science China(Technological Sciences)》 SCIE EI CAS 2010年第11期3145-3152,共8页
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 fre... 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 con-sideration of sampling frequency limitation and sampling window limitation. Explicit expression of systematic error of cen-troid estimation is obtained, and the dependence of systematic error on Gaussian width of star image, actual star centroid loca-tion 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. 展开更多
关键词 star tracker star image location subpixel centroid estimation centroid algorithm frequency domain analysis systematic error compensation
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