文章

1: 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 2017；

2: 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；

3: Geng Wang, Fei Xing, Minsong Wei, Ting Sun, Zheng You. Optimization method for star tracker orientation in the sun-pointing mode[J]. Chinese Optics Letters, 2017, 15(8)(SCI).

4: Geng Wang, Fei Xing, Minsong Wei, Ting Sun, Zheng You. Optimization method of star tracker orientation for sun-synchronous orbit based on space light distribution[J]. Applied Optics, 2017, 56(15)(SCI).

5: Sun Ting, Xing Fei, Wang Xiaochu, et al. Effective star tracking method based on optical flow analysis for star trackers[J]. Applied Optics, 2016, 55(36): 10335-10340.

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

7: Minsong wei, Fei Xing, Zheng You, A highly accurate wireless digital sun sensor based on profile detecting and detector multiplexing technologies[J]. Mechanical Systems and Signal Processing, 2017, 82: 56-67

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

9: Wang Geng, Xing Fei* et al. “Precision enhancement method for multiplexing image detector-based sun sensor with varying and coded apertures.” Applied Optics 54.35 (2015): 10467-10472.

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

11: Li Jin， Xing Fei*, Sun Ting, You Zheng, Space high accuracy intelligence payload system with integrated attitude and position determination. Instrumentation, Vol 2, No.1 P3-17 March 2015.

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

13: Wei Minsong, Xing Fei*, Wang Geng, You Zheng, System modeling based measurement error analysis of digital sun sensors. Instrumentation, Vol 2, No.1 P27-P32, March 2015.

14: Liu Zengyi, Zhaoborui, Fei Xing, Design and error analysis of a high accurate star simulator based on optical splicing technology. Instrumentation, Vol 2, No.1 P44-56, March 2015

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

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

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

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

19: Sun Ting, Xing Fei*, You Zheng, et al. Smearing model and restoration of star image under conditions of variable angular velocity and long exposure time. [J] Optics Express, 2014, 22(5): 6009-6024. SCI, IF=3.525, WOS:000333579200153, IDS: AD9IS, Citation:2, other citations:1, web of science:1, SCI &SCI-E

20: Wang Chong，You Zheng，Xing Fei* , et al. Optical Flow Inversion for Remote Sensing Image Dense 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

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

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

23: 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

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

25: Sun Ting, Xing Fei*, et al. Motion-blurred star acquisition method of the star tracker under high dynamic conditions. [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

26: Wei Minsong, Xing Fei*, You Zheng et al. An implementation method based on ERS imaging mode for sun sensor with 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，other citations:0,web of science:1 SCI& SCI-E

27: Xing Fei*, Zhao borui, Shi Wenying et al. Study on Tunable Fabrication of the Ultra-black Ni–P Film and its Blacking Mechanism. [J] Electrochimica Acta, 2013, 100: 157-163. IF=4.086, WOS:000320492400021, IDS：165OE, Citations:5, other citations:5,web of science:4, other web of science:4, SCI &SCI-E

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

29: Chen Nan, and Xing Fei*, A New Approach to Determine the Centroid of Star Spot for Star Tracker Based on MEMS-Gyro. [J] Key Engineering Materials 2013, 562: 350-356. Citations:1, other citations:0,web of science:1, other web of science:0

30: Xing Fei*, Chen Nan et al. A Novel Approach Based on MEMS-Gyro’s Data Deep Coupling for Determining the Centroid of Star Spot. [J] Mathematical Problems 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

31: Wei, Minsong, Xing Fei*, Li, Bin. Investigation of Digital Sun Sensor 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, web of science: 4, other web:3, SCI-E

32: Xing Fei*, et al. A novel active pixels sensor (APS) based sun sensor 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 of science: 5, other web:1, SCI&SCI-E

33: Xing Fei*, Dong Ying, and You Zheng. Laboratory calibration of star tracker with brightness independent star identification strategy. [J] Optical Engineering, 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

34: You Zheng, Sun Jian, Xing Fei, et al. A novel multi-aperture based sun 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

35: Li Wengyang, Zhang Gaofei, You Zheng, Xing Fei (2012). Error compensation 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

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

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

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

39: Wei Minsong, Xing Fei*, Wang Geng，Zheng You，Multiplexing image detector based digital sun sensor for high precision and large field of view. [C] //9th ESA Round Table On Micro and Nano Technologies for Space Applications. 2014

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

41: Xing Fei *, et al. Study on the faint star extraction technology with MEMS gyro aided APS star tracker. [C]//ISPDI 2013-Fifth International Symposium on Photoelectronic Detection and Imaging. International Society for Optics and Photonics, 2013. EI；

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

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

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

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

46: Xing Fei*, You, Zheng, Micro aps cmos star tracker and its key techniques research, [C]// 60th International Astronautical Congress 2009, IAC 2009, v 6, p 4911-4915, 2009 EI

47: Xing Fei*，Dong Ying，You Zheng，APS star tracker and attitude estimation, [C]// First International Symposium on Systems and Control in Aerospace and Astronautics. 2006,Jan 19-21, Haerbin China EI; other citation: 5, web of science :2

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

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

50: Dong Ying, You Zheng, Xing Fei. Design of an APS based star tracker for microsatellite attitude determination[C]//55 th International Astronautical Congress. 2004. —-

51: 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.

52: 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.

53: 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.

54: 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；

55: 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， 2013，33（5）88-95， EI；

56: 卫旻嵩, 邢飞*, 李滨, 等. 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；

57: 尤政, 王翀, 邢飞, 等. 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.

58: 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；

59: 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, 第9期，pp1-5.

60: 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, 第31卷第10期宇航学V01.31 N010, 2010，EI; other citation 2; web of science 1;

61: 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, 第14卷，第1期，246-250. EI

62: 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 45（11），1484-1488, EI

63: 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，2005年30（6）703-705，EI

64: 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

专利

1: Zheng You, Fei Xing, Ting Sun, Method for Measuring Precision of Star Sensor and System Using the same. US2013/0013199 A1. Patent No.: US8,433,515 B2

2: Fei Xing, Zheng You, Ting Sun，Method for determining attitude of star sensor based on rolling shutter imaging, US2013/983,979 Patent No.: US9,503,653 B2

3: 卫旻嵩， 邢飞，尤政，太阳敏感器， ZL201410065241.4，授权公告日：2016-01-20

4: 邢飞，尤政，孙婷，基于卷帘曝光的星敏感器姿态确定方法，ZL201310053052.0，授权公告日：2015-06-24

5: 孙婷，邢飞，尤政，王晓初，星敏感器星图识别和姿态解算的快速鲁棒校验方法，CN 201610701536.5

6: 邢飞，王赓，尤政，太阳同步轨道卫星单视场星敏感器安装指向设计方法，ZL105

7: 邢飞，王赓，尤政，太阳同步轨道卫星双视场星敏感器安装指向设计方法，ZL

8: 邢飞，王赓，尤政，太阳同步轨道卫星三视场星敏感器安装指向设计方法，

9: 王赓，邢飞，卫旻嵩，尤政，高精度、大视场不同孔径太阳敏感器光线引入器设计方法， CN201510282773.8, 公开（公告）日 : 2015.08.19.

10: 卫旻嵩， 邢飞 ，尤政；无线自供电数字太阳敏感器，CN201510629603.2, 申请日 : 2015.09.28，公开日: 2015.11.25

11: 尤政，邢飞，王洪剑，李滨，樊佩荣，多视场分离的地球敏感器，ZL201310341671.X，授权日期：2015.10.28。

12: 邢飞，尤政，张高飞，孙剑，一种高精度APS太阳敏感器及其实现方法，ZL200910079564.8

13: 邢飞，尤政，张高飞，孙剑，一种多孔阵列式太阳敏感器的图像快速识别方法及装置，ZL200910080081.X，授权日期：2010.5.12

14: 尤政，邢飞，张高飞，李宇，一种太阳光入射角的计算方法及装置， ZL20091008017.2 授权日期：2010.9.15

15: 邢飞，尤政，张高飞，孙剑，一种太阳光入射角测量方法及装置， ZL200910088562.5，授权日期：2010.9.15

16: 尤政，邢飞，孙婷，张高飞，李滨，用于星敏感器的精度测量方法，ZL201110189264.2，授权日期：2012.8.22

17: 邢飞，尤政，孙婷，用于星敏感器的精度测量系统，ZL201110188262.1，授权日期：2012.7.18

18: 尤政，邢飞，董瑛，双视场星敏感器及利用其进行星图识别的方法，ZL200410091182.4，授权日期:2008.5.7

19: 邢飞，孙婷，尤政，星敏感器的三轴精度表述与测量方法，ZL201210059546.5，授权日期:2014.05.21

20: 邢飞, 孙婷, 尤政. 一种高精度星敏感器的精度测量方法: ZL201210167943.4，授权日期：2015.4.15

21: 尤政、邢飞、王洪剑、李滨、樊佩荣. 多视场分离的地球敏感器.ZL201310341671.X，授权日期：2013.10.28

22: 黎雯洋，张高飞，尤政，邢飞，一种面阵APS数字太阳敏感器的精度补偿方法，ZL2011102592096，授权日期：2013.10.16

23: 孙剑，尤政，李滨，张高飞，邢飞，一种三轴气浮台转动角度的测量装置，ZL2008102236634，授权日期：2010.06.02

24: 尤政，刘有军，李伟，邢飞，自供电无线模拟太阳角敏感器，ZL2009100812075，授权日期：2010.06.23

25: 赵璧如，邢飞，梁小芃，海波，地面增补转发器及无线数字广播同步得系统和方法，ZL2006101096990，授权日期，2011.12.07

26: 阮勇，尤政，李滨，张高飞，王晓峰，邢飞，一种框架式可变电容器及其制备方法，ZL2010101522975，授权日期，2011.09.14

27: 李滨，马林，邢飞，杨建中，尤政，微惯性测量装置，ZL201210240106X，授权日期：2014.10.22

28: 邢飞，海波，梁小芃，地面增补转泛起及无线数字广播同步的系统和方法，ZL2006101619353，授权日期：2012.05.23

29: 尤政，卫旻嵩，邢飞，李滨，一种数字太阳敏感器的误差修正方法及装置，ZL201010603535X，授权日期：2012.05.09