Optical system error analysis and calibration method of high-accuracy star trackers T Sun, F Xing, Z You Sensors 13 (4), 4598-4623, 2013 | 121 | 2013 |
Motion-blurred star acquisition method of the star tracker under high dynamic conditions T Sun, F Xing, Z You, M Wei Optics express 21 (17), 20096-20110, 2013 | 79 | 2013 |
Smearing model and restoration of star image under conditions of variable angular velocity and long exposure time T Sun, F Xing, Z You, X Wang, B Li Optics express 22 (5), 6009-6024, 2014 | 63 | 2014 |
An accuracy measurement method for star trackers based on direct astronomic observation T Sun, F Xing, X Wang, Z You, D Chu Scientific reports 6 (1), 22593, 2016 | 51 | 2016 |
Novel approach to improve the attitude update rate of a star tracker S Zhang, F Xing, T Sun, Z You, M Wei Optics Express 26 (5), 5164-5181, 2018 | 36 | 2018 |
Effective star tracking method based on optical flow analysis for star trackers T Sun, F Xing, X Wang, J Li, M Wei, Z You Applied optics 55 (36), 10335-10340, 2016 | 34 | 2016 |
Deep coupling of star tracker and MEMS-gyro data under highly dynamic and long exposure conditions T Sun, F Xing, Z You, X Wang, B Li Measurement Science and Technology 25 (8), 085003, 2014 | 26 | 2014 |
Suppression of stray light based on energy information mining T Sun, F Xing, J Bao, S Ji, J Li Applied Optics 57 (31), 9239-9245, 2018 | 22 | 2018 |
Space high-accuracy intelligence payload system with integrated attitude and position determination LI Jin, X Fei, SUN Ting, LIU Zengyi, YOU Zheng Instrumentation 2 (1), 3-16, 2015 | 20 | 2015 |
A Novel Approach Based on MEMS‐Gyro′ s Data Deep Coupling for Determining the Centroid of Star Spot X Fei, C Nan, Y Zheng, S Ting Mathematical Problems in Engineering 2012 (1), 403584, 2012 | 20 | 2012 |
A4lidartag: Depth-based fiducial marker for extrinsic calibration of solid-state lidar and camera Y Xie, L Deng, T Sun, Y Fu, J Li, X Cui, H Yin, S Deng, J Xiao, B Chen IEEE robotics and automation letters 7 (3), 6487-6494, 2022 | 15 | 2022 |
Optimization method of star tracker orientation for sun-synchronous orbit based on space light distribution G Wang, F Xing, M Wei, T Sun, Z You Applied Optics 56 (15), 4480-4490, 2017 | 15 | 2017 |
CMOS imager non-uniformity response correction-based high-accuracy spot target localization J Bao, F Xing, T Sun, Z You Applied optics 58 (16), 4560-4568, 2019 | 14 | 2019 |
A window-adaptive centroiding method based on energy iteration for spot target localization J Bao, H Zhan, T Sun, S Fu, F Xing, Z You IEEE Transactions on Instrumentation and Measurement 71, 1-13, 2022 | 13 | 2022 |
Neighborhood kalman estimation for distributed localization in wireless sensor networks X Wang, T Sun, C Fan Mathematical Problems in Engineering 2016 (1), 2510903, 2016 | 10 | 2016 |
Centroid determination based on energy flow information for moving dim point targets T Sun, F Xing, J Bao, H Zhan, Y Han, G Wang, S Fu Acta Astronautica 192, 424-433, 2022 | 9 | 2022 |
Optimization method for star tracker orientation in the sun-pointing mode G Wang, F Xing, M Wei, T Sun, Z You Chinese Optics Letters 15 (8), 081201, 2017 | 8 | 2017 |
A novel two-step validation algorithm for lost-in-space star identification X Wang, C Sun, T Sun IEEE Transactions on Aerospace and Electronic Systems 56 (3), 2272-2279, 2019 | 7 | 2019 |
System-on-a-chip based nano star tracker and its real-time image processing approach M Wei, J Bao, F Xing, Z Liu, T Sun, Z You | 6 | 2016 |
Principle and implementation of APS CMOS star tracker F Xing, Z You, T Sun, M Wei National Defense Industry Press, 2017 | 5 | 2017 |