Binocular Visual Position and Attitude Measurement Method for a Spatial Non-Cooperative Target

An Shu; Haodong Pei; Lei Ding; Huixian Duan; Shanshan Zhou

doi:10.3788/AOS202040.1712003

[2] Yi Y C. Studies on the movement state estimation and the capture path planning of the spatial non-cooperative targets[D]. Harbin: Harbin Engineering University(2017).

[3] Wang X H[J]. Development and trend of space on-orbit servicing technology Satellite & Network, 2016, 70-76.

[4] Liu X. Non-cooperative target pose estimation based on stereo vision[D]. Harbin: Harbin Institute of Technology(2019).

[7] Reintsema D, Thaeter J, Rathke A et al. Deos-the German robotics approach to secure and de-orbit malfunctioned satellites from low earth orbits. [C]∥Proceeding of the i-SAIRAS. Sapporo: JAXA, 244-251(2010).

[8] Jia P, Liu H Y, Li H[J]. Development of Deutsche orbitale service mission Aerospace China, 2016, 24-29.

[9] Kimura S, Nagai Y, Yamamoto H et al. Approach for on-orbit maintenance and experiment plan using 150 kg-class satellites[C]∥2005 IEEE Aerospace Conference, March 5-12, 2005, Big Sky, MT, USA., 837-845(2005).

[10] Xu W F, Liang B, Li C et al. The approach and simulation study of the relative pose measurement between space-crafts based on stereo vision[J]. Journal of Astronautics, 30, 1421-1428(2009).

[11] Cai H. Experiment research of non-cooperative space target relative measurement based on binocular vision[D]. Beijing: Beijing Institute of Technology(2015).

[12] Yan K. Research on pose measurement of space non cooperative target based on binocular vision[D]. Beijing: University of Chinese Academy of Sciences(2018).

[13] Wang C S. Research on binocular vision measurement based on ORB algorithm[D]. Harbin: Harbin Institute of Technology(2015).

[14] Da J, Qu H M, Tao T Y et al. Real-time three-dimensional measurement composite of epipolar constraint and speckle correlation[J]. Acta Optica Sinica, 36, 1012003(2016).

[15] Zhang Q, Dong Y, Li H B et al. Underwater curve constraint model based on non-parallel binocular vision[J]. Acta Optica Sinica, 36, 0315001(2016).

[16] Hough V, Paul C. Method. -12-18[P]. means for recognizing complex patterns: US069654.(1962).

[17] Lu C S, Xia S Y, Shao M et al. Arc-support line segments revisited: an efficient high-quality ellipse detection[J]. IEEE Transactions on Image Processing, 4352, 768-781(2020).

[18] von Gioi R G, Jakubowicz J, Morel J M et al. 35-55[2020-03-18]. http: ∥dx.doi.org/10.5201/ipol.2012.gjmr-lsd.(2012).

[19] Luo H, Wang F, Chen Z Q et al. Infrared target detecting based on symmetrical displaced frame difference and optical flow estimation[J]. Acta Optica Sinica, 30, 1715-1720(2010).

[20] Li X Z, Yin X L, Jia S M et al. Improved TV-L1 algorithm for smooth optical flow[J]. Acta Optica Sinica, 33, 1015002(2013).

[21] Dong Y W, Zhang Y J, Gao X L et al. Distributed communication system based on multicore DSP TMS320C6678[J]. Microcomputer & Its Applications, 33, 74-76(2014).