自强不息天行健,厚德载物人为本
自强不息天行健,厚德载物人为本



1

高精度、大视场不同孔径太阳敏感器光线引入器设计方法

2018.02.09

2

无线自供电数字太阳敏感器

2017.11.21

3

太阳同步轨道卫星双视场星敏感器安装指向设计方法

2017.10.24

4

微型定位导航授时系统

2017.09.22

5

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

2016.11.22

6

太阳敏感器

2016.01.20

7

多视场分离的地球敏感器

2015.10.28

8

基于星敏感器的卫星姿态确定方法及系统

2015.08.12

9

基于卷帘曝光成像的星敏感器的姿态确定方法

2015.06.24

10

一种高精度星敏感器的精度测量方法

2015.04.15

11

微惯性测量装置

2014.10.22

12

星敏感器的三轴精度表述与测量方法

2014.05.21

13

一种面阵APS数字太阳敏感器的精度补偿方法

2013.10.26

14

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

2013.04.30

15

用于星敏感器的精度测量方法

2012.08.22

16

用于星敏感器的精度测量系统

2012.07.18

17

地面增补转发器及无线数字广播同步的系统和方法

2012.05.23

18

一种数字太阳敏感器的误差修正方法及装置

2012.05.09

19

一种框架式可变电容器及其制备方法

2011.09.14

20

一种太阳光入射角的计算方法及装置

2010.09.15

21

一种基于APS技术的太阳光入射角测量方法及装置

2010.09.15

22

自供电无线模拟太阳角敏感器

2010.06.23

23

一种三轴气浮台转动角度的测量装置

2010.06.02

24

一种多孔阵列式太阳敏感器的图像快速识别方法及装置

2010.05.12

25

一种高精度APS太阳敏感器及其实现方法

2010.05.12

26

双视场星敏感器及利用其进行星图识别的方法

2008.05.07

序号
专利名称
授权日期
学术论文

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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