Your search keyword '"Zhao, Ruishan"' showing total 2 results

1. Geometric Self-Calibration of YaoGan-13 Images Using Multiple Overlapping Images.

Author

Zhang, Guo, Deng, Mingjun, Cai, Chenglin, and Zhao, Ruishan

Subjects

SYNTHETIC aperture radar, REMOTE-sensing images, IMAGE processing, PARAMETER estimation, ACQUISITION of data

Abstract

Geometric calibration is an important means of improving the absolute positioning accuracy of space-borne synthetic aperture radar imagery. The conventional calibration method is based on a calibration field, which is simple and convenient, but requires a great deal of manpower and material resources to obtain ground control points. Although newer cross-calibration methods do not require ground control points, calibration accuracy still depends on a periodically updated reference image. Accordingly, this study proposes a geometric self-calibration method based on the positioning consistency constraint of conjugate image points to provide rapid and accurate calibration of the YaoGan-13 satellite. The proposed method can accurately calibrate geometric parameters without requiring ground control points or high-precision reference images. To verify the absolute positioning accuracy obtained using the proposed self-calibration method, YaoGan-13 Stripmap images of multiple regions were collected and evaluated. The results indicate that high-accuracy absolute positioning can be achieved with a plane accuracy of 3.83 m or better for Stripmap data, without regarding elevation error. Compared to the conventional calibration method using high-accuracy control data, the difference between the two methods is only about 2.53 m, less than the 3-m resolution of the image, verifying the effectiveness of the proposed self-calibration method. [ABSTRACT FROM AUTHOR]

Published

2019

2. Block Adjustment without GCPs for Chinese Spaceborne SAR GF-3 Imagery.

Author

Zhang, Guo, Wu, Qingwei, Wang, Taoyang, Zhao, Ruishan, Deng, Mingjun, Jiang, Boyang, Li, Xin, Wang, Huabin, Zhu, Yu, and Li, Fangting

Subjects

SYNTHETIC aperture radar, ERROR analysis in mathematics, DIGITAL elevation models, PARAMETERS (Statistics), GEOMETRIC modeling

Abstract

The Gaofen-3 (GF-3) satellite is the first C-band multi-polarization synthetic aperture radar (SAR) with the ability of high-accuracy mapping in China. However, the Ground Control Points (GCPs) are essential to ensure the accuracy of mapping for GF-3 SAR imagery at present. In this paper, we analyze the error sources that affect the geometric processing and propose a new block adjustment method without GCPs for GF-3 SAR imagery. Firstly, the geometric calibration of GF-3 image is carried out. Secondly, the rational polynomial coefficient (RPC) model is directly generated after the geometric calibration parameters compensation of each image. Finally, we solve the orientation parameters of the GF-3 images through DEM assisted planar block adjustment and conduct ortho-rectification. With two different imaging modes of GF-3 satellite, which include the QPSI and FS2, we carry out the block adjustment without GCPs. Experimental results of testing areas including Wuhan city and Hubei province in China show that the geometric mosaic accuracy and the absolute positioning accuracy of the orthophoto are better than one pixel, which has laid a good foundation for the application of GF-3 image in global high-accuracy mapping. [ABSTRACT FROM AUTHOR]

Published

2018