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Method for determining attitude of star sensor based on rolling shutter imaging



























Method for Measuring Precision of Star Sensor and System Using the same






































Authorization date
Academic Papers

l   学术专著:邢飞,尤政,孙婷等《APS CMOS星敏感器系统原理及实现方法》,国防工业出版社 2016;

l   学术专著的一章:尤政等著《空间微系统与微纳卫星》第五章《先进空间光学姿态敏感器技术》,国防工业出版社 2013;

l   Zhenzhen Chen, Fei Xing*,Zheng You, Minsong Wei, Haiyang Zhan, multimorphological top-hats basedmultiscaletargets classification algorithm for real-time image processing[J].Applied Optics 2019,

l   Jingyu Bao, Fei Xing, TingSun, et al.   CMOS imager non-uniformityresponse correction-based high-accuracy spot target localization[J]. AppliedOptics, 2019, 58(16): 4560-4568.

l   Li Jin, Xing Fei, Shrestha PK, et al. On-orbit Self-Focusing using conjugated Optical Fiber Waveguides forspace optical Cameras[J].   IEEEGeoscience and Remote Sensing Letters, 2019.

l   Wei, Min-Song, Fei Xing*, andZheng You. "A real-time detection and positioning method for small andweak targets using a 1D morphology-based approach in 2D images." Light:Science & Applications 7(5) (2018): 18006.

l   Sun Ting., Xing Fei, BaoJingyu., Ji Songsong., & Li Jin. (2018). Suppression of stray light basedon energy information mining. Applied optics, 57(31), 9239-9245.

l   Zhang, Shuo, Fei Xing*, TingSun, Zheng You, and Minsong Wei. "Novel approach to improve the attitudeupdate rate of a star tracker." Optics Express 26, no. 5 (2018):5164-5181. IF=3.307

l   Zhang, Shuo, Fei Xing*, TingSun, and Zheng You. “Quaternion-based filtering for gyroless attitudeestimation without an attitude dynamics model.” Metrology and MeasurementSystems 25(3) (2018): 631-643

l   Liu Fengdeng, Xing Fei*, YouZheng. Preparation of Ni–P alloys super-black materials applied to bafflesurface[J]. Surface Engineering, 2018, 34(12): 892-899.

l   Geng Wang, Fei Xing*, MinsongWei, Ting Sun, Zheng You, Optimization method of star tracker orientation forsun-synchronous orbit based on space light distribution, Applied Optics, 2017,56(15). IF=1.65

l   Geng Wang, Fei Xing*, MinsongWei, Ting Sun, Zheng You, Optimization method for star tracker orientation inthe sun-pointing mode, Chinese Optics Letters, 2017, 15(8)   IF=1.859

l   Wang G, Xing F, Wei M S, andYou Z. Rapid optimization method of the strong stray light elimination forextremely weak light signal detection. Optics Express, 2017,25(21):26175-26185. (SCI收录, 检索号: FJ9NC, 影响因子:3.307.)

l   Geng Wang, Fei Xing, MinsongWei, Ting Sun, Zheng You, Optimization method of installation orientation andbaffle design for dual- FOVs star tracker, Advances in the AstronauticalSciences, 160, 3719-3731, (2017), Conference: 27th AAS/AIAA Space FlightMechanics Meeting 2017. February 5, 2017-February 9, 2017. Sponsor: AmericanAstronautical Society(AAS); American Institute of Areonautics andAstronautics(AIAA) Astrodynamics Technical Committee; Space Flight MechanicsCommittee.

l   Minsong wei, Fei Xing, ZhengYou, A highly accurate wireless digital sun sensor based on profile detectingand detector multiplexing technologies[J]. Mechanical Systems and SignalProcessing, 2017, 82: 56-67

l   Sun Ting, Xing Fei, WangXiaochu, et al. Effective star tracking method based on optical flow analysisfor star trackers[J]. Applied Optics, 2016, 55(36): 10335-10340. (1 citation)

l   Li J, Xing F, Chu D, et al.High-Accuracy Self-Calibration for Smart, Optical Orbiting Payloads Integratedwith Attitude and Position Determination[J]. Sensors, 2016, 16(8): 1176.

l   Sun T, Xing F, Wang X, et al.An accuracy measurement method for star trackers based on direct astronomicobservation[J]. Scientific reports, 2016, 6: 22593   (8 citations)

l   Wang Geng, Xing Fei* et al."Precision enhancement method for multiplexing image detector-based sunsensor with varying and coded apertures." Applied Optics 54.35 (2015):10467-10472.   (3citations)

l   Special Issue: Xing Fei, SmartOptical Instruments and Systems for Space Applications. [J] Instrumentation,2015 Vol 1.

l   Li Jin, Xing Fei*, Sun Ting,You Zheng, Space high accuracy intelligence payload system with integratedattitude and position determination. Instrumentation, Vol 2, No.1 P3-17 March2015.

l   Sun Ting, Xing Fei*, YouZheng, Research on Dynamic Performance of Star tracker. Instrumentation, Vol 2,No.1, P18-26 March 2015.

l   Wei Minsong, Xing Fei*, WangGeng, You Zheng, System modeling based measurement error analysis of digitalsun sensors. Instrumentation, Vol 2, No.1 P27-P32, March 2015.

l   Liu Zengyi, Zhaoborui, FeiXing, Design and error analysis of a high accurate star simulator based onoptical splicing technology. Instrumentation, Vol 2, No.1 P44-56, March 2015

l   Li jin, Xing Fei*, Sun Ting,You Zheng, Efficient assessment method of on-board modulation transfer functionof optical remote sensing sensors. [J] Optics Express, 2015, 23(5):6187-6208.(1 citations)

l   Wang Hongjian, Xing Fei*, YouZheng, Chu Daping, Study on a High-precision Earth Sensor with Triple-FOV. [J],Instrumentation, 2014, 2: 003.

l   Wei Minsong,   Xing Fei*, You Zheng, et al.   Multiplexing image detector method fordigital sun sensors with arc-second class accuracy and large FOV. [J] OpticsExpress, 2014, 22(19): pp.23094-23107. SCI, IF=3.525,   WOS:000342756500084, IDS: AQ4IB,SCI&SCI-E   (2 times)

l   Sun Ting, Xing Fei*, YouZheng, et al. Deep coupling of star tracker and MEMS-gyro data under highdynamic and long exposure conditions. [J] Measurement Science and Technology,2014, 25(8), 085003. SCI, IF =1.352, WOS:000339273800013, IDS: AL6WJ, SCI &SCI-E   (4times)

l   Sun Ting, Xing Fei*, YouZheng, et al. Smearing model and restoration of star image under conditions ofvariable angular velocity and long exposure time. [J] Optics Express, 2014,22(5): 6009-6024. SCI, IF=3.525, WOS:000333579200153, IDS: AD9IS, Citation: (19times),

l   Wang Chong,You Zheng,Xing Fei* , et al. Optical Flow Inversion for Remote Sensing ImageDense Registration and Sensor's Attitude Motion High-Accurate Measurement. [J]Mathematical Problems in Engineering, 2014(2014): 432613. SCI, IF=1.082;WOS:000330440500001; IDS: 300BX, SCI-E (1times)

l   Li Jin, Xing Fei *,You Zheng,Compression of Multispectral Images with Comparatively Few Bands UsingPosttransform Tucker Decomposition. [J] Mathematical Problems in Engineering,2014(2014): 296474. SCI, IF=1.082,   WOS:000342933000001, IDS:AQ6OF, SCI-E (1times)

l   Li jin, Xing Fei*, Sun Ting,You Zheng. Multi-band CCD Image Compression for Space Camera with Large Fieldof View. [J] Journal of Applied Mathematics, 2014(2014), 374285 SCI, IF=0.834;(1times)

l   Li jin, Xing Fei*, Sun Ting,You Zheng. An Efficient Image Compressor for Charge Coupled Devices (CCD)Camera. [J] The Scientific World Journal, 2014(2014), 840762. SCI,IF=1.220.   WOS:000343547500001, IDS:AR4HG, SCI-E

l   Li Jin, Xing Fei*, Sun Ting,You, Zheng, Multispectral Image Compression Based on DSC Combined withCCSDS-IDC. [J] The Scientific World Journal, 2014(2014), 738735 SCI, IF=0.834;WOS:000343516900001, IDS: AR3VM, SCI-E

l   Sun Ting, Xing Fei*, et al.Motion-blurred star acquisition method of the star tracker under high dynamicconditions. [J] Optics Express 2013, 21(17): 20096-20110. IF=3.525,WOS:000323830500064, IDS:210KD,Citations:7,other citations: 2, web of science: 5, other web of science: 0, SCI &SCI-E(25 citations)

l   Wei Minsong, Xing Fei*, YouZheng et al. An implementation method based on ERS imaging mode for sun sensorwith 1 kHz update rate and 1 ″precision level. [J] Optics Express, 2013, 21(26): 32524-32533.IF=3.525,   WOS:000329205200079, IDS:282WP, Citations:1,othercitations:0,web of science:1 SCI& SCI-E(5 citations)

l   Xing Fei*, Zhao borui, ShiWenying et al. Study on Tunable Fabrication of the Ultra-black Ni–P Film and its BlackingMechanism. [J] Electrochimica Acta, 2013, 100: 157-163. IF=5.1,WOS:000320492400021, IDS:165OE, Citations:5, other citations:5,webof science:4, other web of science:4, SCI &SCI-E   (13citations)

l   Sun Ting, Xing Fei*, and YouZheng. Optical System Error Analysis and Calibration Method of High-AccuracyStar Trackers. [J] Sensors 2013, 13(4): 4598-4623. IF=2.048, WOS:000318036400037,IDS:131ZC, Citations:13, other citations:8, web ofscience: 10, other web of science: 6 SCI-E (22 citations)

l   Chen Nan, and Xing Fei*, A New Approach to Determine the Centroid ofStar Spot for Star Tracker Based on MEMS-Gyro. [J] Key Engineering Materials2013, 562: 350-356. Citations:1, other citations:0,web of science:1, other webof science:0   

l   Xing Fei*, Chen Nan et al. A Novel Approach Based on MEMS-Gyro'sData Deep Coupling for Determining the Centroid of Star Spot. [J] MathematicalProblems in Engineering 2012(2012). IF=1.082, WOS:000309005400001,IDS:009DI,citations:3, other citations:0, web of science:3, other web:0, SCI-E   (5 times)

l   Wei, Minsong, Xing Fei*, Li, Bin. Investigation of Digital SunSensor Technology with an N-Shaped Slit Mask. [J] Sensors, 2011, 11: 9764-9777.IF=2.048, WOS:000296577000039, IDS: 842FC, citations:7, other citations:4, webof science: 4, other web:3, SCI-E 4times

l   Xing Fei*, et al. A novel active pixels sensor (APS) based sunsensor based on a feature extraction and image correlation (FEIC) technique.[J] Measurement Science and Technology, 2008,19(12): 125203. IF=1.352,WOS:000260759000007, IDS:370JR, citations:7, other citations: 2, web ofscience: 5, other web:1, SCI&SCI-E

l   Xing Fei*, Dong Ying, and You Zheng. Laboratory calibration of startracker with brightness independent star identification strategy. [J] OpticalEngineering, 2006, 45(6): 063604-063604. IF=0.958,   WOS:000239345200016, IDS:068AY, citations:18,other citations:9, web of science:10, other web:5, SCI&SCI-E(12 times)

l   You Zheng, Sun Jian, Xing Fei, et al. A novel multi-aperture basedsun sensor based on a fast multi-point MEANSHIFT (FMMS) algorithm. [J] Sensors,2011, 11(3): 2857-2874. SCI, IF=1.953 WOS:000288786900032, IDS: 740IT,citations:4,others:1,web of science:2,other web:0, SCI-E

l   Li Wengyang, Zhang Gaofei, You Zheng, Xing Fei (2012). Errorcompensation for area digital sun sensor. [J] Sensors, 12(9), 11798-11810 WOS:000309269900021,IDS: 012XL,citations:1,others:1,web of science:1, SCI-E

l   Zhong Xing, Jin Guang, Wang Dong, Xing Fei, Space Optics and RemoteSensing Technologies. [J] Opto-Electronic Engineering, 2011, 38(09): 1-5.

l   Xing Fei, You Zheng, Zhang Gaofei. Sun sensor based on the MEMSsunlight lead-in. [J] Journal of Functional Materials and Devices, 2008, 14(1):246. EI

l   Dong Ying, Xing Fei, You Zheng. Brightness independent 4-starmatching algorithm for lost-in-space 3-axis attitude acquisition. [J] TsinghuaScience & Technology, 2006, 11(5): 543-548. Other web of science:1

l   Xing Fei. The Innovation of Optical Sensing and Measurement inSpacecraft. 9th APSCO International Symposium Developing Next-Generation Aerospace Innovative Talents throughSpace Cooperation ,Beijing,   China 15~16 November, 2018,   Invited speaker.

l   Xing Fei, A Function-Multiplex Attitude Sensor Integrated theSensing of SunEarthMoon and Stars, 1st ChinaMicrosatellite Symposium, Xian, 19~22 November, 2018, Invited speaker.

l   Zhang, Shuo, Fei Xing, Ting Sun, Jingdong Li, and Zhenzhen Chen.“Attitude measurement approach for a small satellite with high update ratebased on a star tracker.” Small Satellites, System & Services Symposium,Sorrento, Italy (2018): 1-12.

l   Zhang, Shuo, and Fei Xing. “Attitude measurement for spacecraft withhigh update rate based on the rolling shutter mode of a star tracker.”IEEE/CSAA Guidance, Navigation and Control Conference, Xiamen, China (2018):1513-1518.

l   Wei Minsong, Xing Fei*, Wang GengZheng YouMultiplexing image detector based digital sun sensor for highprecision and large field of view. [C] //9th ESA Round Table On Micro and NanoTechnologies for Space Applications. 2014

l   Liu Fengdeng, Xing Fei*, Wu Yuelong, You Zheng, Process ofsuper-black shading material applied to the star sensor based on Ni-P alloys.[C] //IPTA, International Conference on Optoelectronic Technology andApplication 2014

l   Xing Fei *, et al. Study on the faint star extraction technologywith MEMS gyro aided APS star tracker. [C]//ISPDI 2013-Fifth InternationalSymposium on Photoelectronic Detection and Imaging. International Society forOptics and Photonics, 2013. EI

l   Wang Hongjian, Xing Fei *, Fan Peiyong, Wang Chong, You zheng, Ahigh-precision earth sensor with three separated FOVs for aircraft application.[C]//ISPDI 2013-Fifth International Symposium on Photoelectronic Detection andImaging. International Society for Optics and Photonics, 2013. EI

l   Wang Chong, Xing Fei *, Wang, Hongjian, You, Zheng. Optical flowsmethod for lightweight agile remote sensor design and instrumentation.[C]//ISPDI 2013-Fifth International Symposium on Photoelectronic Detection andImaging. International Society for Optics and Photonics, 2013. EI

l   Xing Fei*, Wu yuelong, You zheng, A novel Method to FabricateUltra-Black Material with Micro/Nano structure for Star Tracker Baffle,[C]//8th ESA Round Table On Micro and Nano Technologies for Space Applications. 2012

l   Xing Fei, You zheng, A novel MEMS based Sun sensor, [C]//7th ESARound Table On Micro and Nano Technologies for Space Applications. 2010

l   Xing Fei*, You, Zheng, Micro aps cmos star tracker and its keytechniques research, [C]// 60th International Astronautical Congress 2009, IAC2009, v 6, p 4911-4915, 2009 EI

lXingFei*Dong YingYou ZhengAPS star tracker and attitude estimation, [C]// First InternationalSymposium on Systems and Control in Aerospace and Astronautics. 2006,Jan 19-21,Haerbin China EI; other citation: 5, web of science :2

l   Dong Ying, Xing Fei, You Zheng. An APS-based autonomous startracker[C]//Photonics Asia 2004. International Society for Optics and Photonics,2005: 225-233.

l   Dong Ying, Xing Fei, You Zheng. APS star sensor performanceassessment through real-sky observation experiments[C]//Photonics Asia 2004.International Society for Optics and Photonics, 2005: 541-550.----

l   Dong Ying, You Zheng, Xing Fei. Design of an APS based star trackerfor microsatellite attitude determination[C]//55 th International AstronauticalCongress. 2004. ----

l   李进, 邢飞*, 王翀. 空间 CCD 相机高精度在轨调制传递函数估算[J]. 光学学报, 2015, 35(2): 211003.

l   卫旻嵩,邢飞*,王赓,尤政,面向高精度太阳敏感器的探测器复用技术研究. [J]清华大学学报,2014, 54(10):pp1271-1275.

l   李进, 邢飞*, 尤政. 基于 QC-LDPC 码的空间 CCD 图像 NAND 闪存存储纠错[J]. 光电子. 激光, 2014, 25(008): 1598-1605.

l   孙婷, 邢飞*, 尤政. 高精度星敏感器光学系统误差分析. [J] 光学学报,2013, 33(3): 323003 EI

l   王翀,尤政,邢飞*,陶青长,大视场空间遥感相机的像速场及图像传感器曝光积分控制. [J] 光学学报, 201333588-95 EI

l   卫旻嵩, 邢飞*, 李滨, . N形缝光线引入器太阳敏感器技术研究[J]. 宇航学报, 2013,34(10): 1323-1329 EI

l   尤政, 王翀, 邢飞, . 空间遥感智能载荷及其关键技术[J]. 航天返回与遥感, 2013(1): 35-43.

l   孙婷, 邢飞*, 尤政. 一种基于天体运动学的星敏感器精度测量方法[J]. 清华大学学报: 自然科学版, 2012, 52(4): 430-435. EI

l   钟兴,金光,王栋,邢飞,CMOS星敏感器焦平面装配及标定. [J] 光电工程,2011, 9期,pp1-5.

l   邢飞, 尤政, 董瑛. 基干导航星域和 K 矢量的快速星图识别算法. [J] 宇航学报, 31卷第10期宇航学V01.31 N010, 2010EI; other citation 2; web ofscience 1;

l   邢飞; 尤政; 张高飞. 基于MEMS光线引入器的太阳敏感器技术.[J] 功能材料与器件学报,2008, 14卷,第1期,246-250. EI

l   邢飞,董瑛,武延鹏,尤政,星敏感器参数分析与自主校正. [J] 清华大学学报,2006年,Vol 4511),1484-1488,   EI

l   邢飞,武延鹏,董瑛,尤政,微型星敏感器实验室测试系统研究. [J] 光学技术,2005306703-705EI

l   董瑛,邢飞,尤政,基于CMOS APS的星敏感器光学系统参数确定. [J] 宇航学报. 2004, 25(6): 663-668. EI

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