[1] |
VAN B, ROELOF W H. SIRTF autonomous star tracker[C]//IR Space Telescopes and Instruments, 2003.
|
[2] |
郝云彩. 空间光学敏感器技术进展与应用[J]. 空间控制技术与应用, 2017, 43(4):9-18. HAO Y C. Technical progress and application of space optical sensor[J]. Aerospace Control and Application, 2017, 43(4):9-18(in Chinese).
|
[3] |
BROSS W. Development of an all-electronic star sensor with image dissector tube:NASA-TT-F-12646[R]. Washington,D.C.:NASA,1969.
|
[4] |
STANTON R H, HILL R E. A CCD star sensor for fine pointing control of spaceborne telescopes[C]//17th Aerospace Sciences Meeting, 1979.
|
[5] |
STANTON R H. CCD star tracker experience:Key results from Astro1 flight[C]//Space Guidance, Control, and Tracking, 1993.
|
[6] |
LIEBE C C. Star trackers for attitude determination[J]. Aerospace and Electronic Systems, 1995, 10(6):10-16.
|
[7] |
YADID P O, PAIN B, STALLER C, et al. CMOS active pixel sensor star tracker with regional electronic shutter[J]. IEEE Journal of Solid-State Circuits, 1997, 32(2):285-288.
|
[8] |
LIEBE C C. Accuracy performance of star trackers-A tutorial[J]. IEEE Transactions on Aerospace and Electronic Systems, 2002, 38(2):587-599.
|
[9] |
SCHMIDT U. Autonomous star tracker based on active pixel sensors[C]//5th International Conference on Space Optics, ESA SP-554, 2004:355-358.
|
[10] |
SCHMIDT U. ASTRO APS-the next generation Hi-Rel star tracker based on active pixel sensor technology[C]//AIAA Guidance, Navigation, and Control Conference and Exhibit, 2005:1-10.
|
[11] |
SCHMIDT U, MICHEL K, AIREY S P. Active pixel sensor technology applied in autonomous star sensors-advantages and challenges[C]//Guidance and Control 2007:Proceedings of the 30th Annual AAS Rocky Mountain Guidance and Control Conference (AAS-VOL-128), 2007.
|
[12] |
LIEBE C C, ALKALAI L, DOMINGO G. Micro APS based star tracker[C]//Aerospace Conference Proceedings of IEEE, 2002.
|
[13] |
张广军. 星图识别[M]. 北京:国防工业出版社, 2011:12-17. ZHANG G J. Star identification[M]. Beijing:National Defense Industry Press, 2011:12-17(in Chinese).
|
[14] |
卢欣, 李春艳, 李晓, 等. 星光导航技术现状与发展综述[J]. 空间控制技术与应用, 2017, 43(4):1-8. LU X, LI C Y, LI X, et al. Current and development trends of starlight navigation technology[J]. Aerospace Control and Application, 2017, 43(4):1-8(in Chinese).
|
[15] |
SCHMIDT U, ELSTNER C, MICHEL K. ASTRO 15 star tracker flight experience and further improvements Towards the ASTRO APS star tracker[C]//AIAA Guidance, Navigation and Control Conference and Exhibit.Reston:AIAA, 2008.
|
[16] |
SCHMIDT U, FIKSEL T, KWIATKOWSKI A, et al. Autonomous star sensor ASTRO APS:flight experience on Alphasat[J]. CEAS Space Journal, 2015, 7(2):237-246.
|
[17] |
MINEC-DUB J, JACOB P, GUILLON D, et al. Protons robustness improvement for the SED 26 star tracker[C]//Proceedings of the 6th International ESA Conference on Guidance, 2006.
|
[18] |
BLARRE L, OUAKNINE J, ODDOS-MARCEL L. High accuracy Sodern star trackers:Recent improvements proposed on SED36 and HYDRA star trackers[C]//AIAA Guidance, Navigation, and Control Conference and Exhibit. Reston:AIAA 2006.
|
[19] |
OUAKNINE J, BLARRE L, ODDOS-MARCEL L, et al. Reduction of low frequency error for SED36 and APS based HYDRA star trackers[C]//International Conference on Space Optics-ICSO, 2006.
|
[20] |
MICHAELS D, SPEED J. Ball aerospace star tracker achieves high tracking accuracy for a moving star field[C]//2005 IEEE Aerospace Conference, 2005:1-7.
|
[21] |
VAN B, ROELOF W H. SIRTF autonomous star tracker[J]. Proceedings of SPIE-The International Society for Optical Engineering, 2003, 4850:108-121.
|
[22] |
PIOT D, ODDOS-MAECEL L, GELIN B, et al. Hydra star tracker on-board spot-6[C]//36th Annual AAS Rocky Mountain Section Guidance and Control Conference, 2013.
|
[23] |
HUFFMAN K, SEDWICK R, STAFFORD J, et al. Designing star trackers to meet micro-satellite requirements[C]//SpaceOps 2006 Conference, 2006.
|
[24] |
ENRIGHT J, SINCLAIR D, FERNANDO C. COTS detectors for nanosatellite star trackers:A case study[C]//25th Annual AIAA/USU Conference on Small Satellites, 2011.
|
[25] |
CASSIDY L W. HDOS HD-1003 star tracker[C]//Proceedings of SPIE, Space Guidance, Control, and Tracking Ⅱ, 1995, 2466(1):93-99.
|
[26] |
SEGERT T, ENGELEN S, BUHL M, et al. Development of the pico star tracker ST-200-design challenges and road ahead[C]//25th Annual AIAA/USU, Conference on Small Satellites, 2011.
|
[27] |
DZAMBA T, ENRIGHT J, SINCLAIR D, et al. Success by 1000 improvements:flight qualification of the ST-16 star tracker[C]//28th Annual AIAA/USU, Conference on Small Satellites, 2014.
|
[28] |
MURUGANANDAN V A, PARK J H, LEE S, et al. Development of the arcsecond pico star tracker (APST)*[J]. Transactions of the Japan Society for Aeronautical & Space Sciences, 2017, 60(6):355-365.
|
[29] |
天银星际. 天银星际和清华大学联合研发的PST3星敏感器随珠江一号遥感微纳卫星星座03组卫星成功发射入轨[EB/OL]. 北京:天银星际, 2019. (2019-09-19)[2019-11-27]. http://mp.weixin.qq.com/s/Msu3ozhty_RH6xcNfbtz2A. TY-Space. The PST3 star sensor jointly developed by TY-Space and Tsinghua University was successfully launched into orbit with the group 03 satellite of zhujiang-1 remote sensing micro nano satellite constellation[EB/OL]. Beijing:TY-Space, 2019. (2019-09-19)[2019-11-27].http://mp.weixin.qq.com/s/Msu3ozhty_RH6xcNfbtz2A (in Chinese).
|
[30] |
KATAKE A, BRUCCOLERI C. StarCam SGl00:A high update rate, high sensitivity stellar gyroscope for spacecraft[C]//Sensors, Cameras, and Systems for Industrial/Scientific Applications XI, 2010.
|
[31] |
HUTCHIN R A. Interferometric tracking device:USA, US8045178B2[P]. 2011-10-25.
|
[32] |
GEOFFREY M. Development and performance characterization of color star trackers[D]. Toronto:Ryerson University, 2013.
|
[33] |
DYJAK C P, HARRISON D C. Space-based visible surveillance experiment[C]//Proceedings in SPIE, 1991:42-56.
|
[34] |
SRIDHARAN R, FISHMAN T, ROBINSON E, et al. Mission planning for space based satellite surveillance experiments with the MSX[C]//Space Mission Operations and Ground Data Systems, 1994:295-303.
|
[35] |
SHARMA J, BAPOSCHKIN E M, BRAUN V C. Space-based space surveillance with the Space-based visible[J]. Journal of Guidance Control & Dynamics, 2000, 23(1):148-152.
|
[36] |
KANTSIPER B, CHENG A, REED C. The double asteroid redirection test mission[C]//2016 IEEE Aerospace Conference, 2016:1-7.
|
[37] |
FURNISS T. Orbital express ready to repair[J]. Flight International, 2004, 166(4944).
|
[38] |
MORRIS D, ALDCROFT T L, CAMERON R A, et al. Analysis of the Chandra x-ray observatory aspect camera PSF and its application to post-facto pointing aspect determination[C]//Proceedings of SPIE, Astronomical Data Analysis, 2001.
|
[39] |
ALDCROFT T L, KAROVSKA M, CRESITELLO-DITTMAR M, et al. Initial performance of the aspect system on the Chandra observatory:postfacto aspect reconstruction[C]//X-Ray Optics, Instruments, and Missions Ⅲ, 2000.
|
[40] |
DORLAND B N, DUDIK R P, DUGAN Z, et al.The joint milli-arcsecond pathfinder survey (JMAPS):mission overview and attitude sensing applications[C]//19th AAS/AIAA Space Flight Mechanics Meeting, 2009.
|
[41] |
GAUME R A, DORLAND B N. The joint milli-arcsecond pathfinder survey:introduction and applications[C]//AIAA SPACE 2009 Conference & Exposition, 2009.
|
[42] |
FEIN G F. Canada's sapphire provides another node for space debris monitoring[J]. Jane's International Defense Review, 2014,47(3).
|
[43] |
BOLLNER M. Star identification techniques used for attitude determination and control of the X-ray satellite Rosat[C]//Guidance Navigation and Control Conference, 1987:1255-1263.
|
[44] |
GUCKENBIEHL F H. Rosat mission operations system[C]//AIAA Aerospace Sciences Meeting and Exhibit, 2013.
|
[45] |
SCHUTZ B E, ZWALLY H J, SHUMAN C A, et al. Overview of the ICESat mission[J]. Geophysical Research Letters, 2005, 32(21):L21S01-04.
|
[46] |
BAE S, WEBB C, SCHUTZ B. GLAS PAD calibration using laser reference sensor data[C]//AIAA/AAS Astrodynamics Specialist Conference and Exhibit. Providence, 2004.
|
[47] |
ABDALATI W, ZWALLY H J, BINDSCHADLER R, et al. The ICESat-2 laser altimetry mission[J]. Proceedings of the IEEE, 2010, 98(5):735-751.
|
[48] |
ECSS Secretariat. Star sensor terminology and performance specification:ECSS-E-ST-60-20C[S]. Noordwijk:ESA, 2008.
|
[49] |
卢欣, 武延鹏, 钟红军, 等. 星敏感器低频误差分析[J]. 空间控制技术与应用, 2014, 40(2):1-7. LU X, WU Y P, ZHONG H J, et al. Low frequency error analysis of star sensor[J]. Aerospace Control and Application, 2014, 40(2):1-7(in Chinese).
|
[50] |
TAKANORI I, HIROKI H, TAKESHI Y, et a1. Precision attitude determination for the advanced land observing satellite(ALOS):design, verification, and on orbit calibration[C]//AIAA Navigation and Control Conference and Exhibit, 2007:1-18.
|
[51] |
WINKLER S, WIEDERMANN G, GOCKEL W. High accuracy onboard attitude estimation for the GMES Sentinel-2 satellite:concept, design, and first results[C]//AIAA Navigation and Control Conference and Exhibit, 2008:1-15.
|
[52] |
李贞, 金涛, 李婷, 等. 敏捷光学卫星无控几何精度提升途径探讨[J]. 航天器工程, 2016, 25(6):25-31. LI Z, JIN T, LI T, et al. Discussion of Geo-location accuracy increasing methods of agile satellite without ground control points[J]. Spacecraft Engineering, 2016, 25(6):25-31(in Chinese).
|
[53] |
熊凯, 宗红, 汤亮. 星敏感器低频误差在轨校准方法研究[J]. 空间控制技术与应用, 2014, 40(3):8-13. XIONG K, ZONG H, TANG L. On star sensor low frequency error in-orbit calibration method[J]. Aerospace Control and Application, 2014, 40(3):8-13(in Chinese).
|
[54] |
赵琳, 谢睿达, 刘源, 等. 星敏感器低频误差与陀螺漂移离线校正方法[J]. 航空学报, 2017, 38(5):155-158. ZHAO L, XIE R D, LIU Y, et al. Offline calibration method of low frequency error of star sensor and gyroscope drift.[J]. Acta Aeronautica et Astronautica Sinica, 2017, 38(5):155-158(in Chinese).
|
[55] |
雷琦, 龚志辉, 林雕, 等. AEKF在星敏感器低频误差补偿中的应用[J]. 测绘科学技术学报, 2016, 33(3):252-257. LEI Q, GONG Z H, LIN D, et al. The application of AEKF in the compensation of low frequency error of star sensor[J]. Journal of Geomatics Science and Technology, 2016, 33(3):252-257(in Chinese).
|
[56] |
庞博, 黎康, 汤亮, 等. 星敏感器误差分析与补偿方法[J]. 空间控制技术与应用, 2017, 43(1):17-24. PANG B, LI K, TANG L, et al. Error analysis and compensation for star sensor[J]. Aerospace Control and Application, 2017, 43(1):17-24(in Chinese).
|
[57] |
庞博, 李果, 黎康, 等. 一种基于地标的星敏感器低频误差在轨校正方法[J]. 航天器工程, 2018, 27(3):79-85. PANG B, LI G, LI K, et al. On-orbit calibration method of star sensor's low frequency error based on landmark[J]. Space Craft Engineering, 2018, 27(3):79-85(in Chinese).
|
[58] |
熊凯, 汤亮, 刘一武. 基于地标信息的星敏感器低频误差标定方法[J]. 空间控制技术与应用, 2012, 38(3):11-15. XIONG K, TANG L, LIU Y W. Calibration of star senor's low frequency error based on landmark information.[J]. Aerospace Control and Application, 2012, 38(3):11-15(in Chinese).
|
[59] |
隋杰, 程会艳, 余成武, 等. 星敏感器光轴热稳定性仿真分析方法[J]. 空间控制技术与应用, 2017, 43(4):37-41. SUI J, CHENG H Y, YU C W, et al. A thermal stability analysis and simulation method for boresight axis of star sensor[J]. Aerospace Control and Application, 2017, 43(4):37-41(in Chinese).
|
[60] |
陈建峰, 余成武, 程会艳, 等. 基于Bipod结构的星敏感器遮光罩安装结构优化设计[J]. 空间控制技术与应用, 2017, 43(4):68-78. CHEN J F, YU C W, CHENG H Y, et al. An optimal design of star tracker baffle based on Bipod structure[J]. Aerospace Control and Application, 2017, 43(4):68-78(in Chinese).
|