| Artificial neural network–based machine learning approach to improve orbit prediction accuracy H Peng, X Bai Journal of Spacecraft and Rockets 55 (5), 1248-1260, 2018 | 105 | 2018 |
| Rapid Generation of Time-Optimal Trajectories for Asteroid Landing via Convex Optimization HB Hongwei Yang, Xiaoli Bai Journal of Guidance, Control, and Dynamics 40 (4), 628-641, 2017 | 97 | 2017 |
| Improving orbit prediction accuracy through supervised machine learning H Peng, X Bai Advances in Space Research 61 (10), 2628-2646, 2018 | 89 | 2018 |
| New results for time-optimal three-axis reorientation of a rigid spacecraft X Bai, JL Junkins Journal of guidance, control, and dynamics 32 (4), 1071-1076, 2009 | 87 | 2009 |
| Modified Chebyshev-Picard iteration methods for solution of initial value and boundary value problems X Bai Texas A&M University, 2010 | 80 | 2010 |
| Modified Chebyshev-Picard iteration methods for solution of boundary value problems X Bai, JL Junkins The Journal of the astronautical sciences 58 (4), 615-642, 2011 | 74 | 2011 |
| Fast homotopy method for asteroid landing trajectory optimization using approximate initial costates H Yang, S Li, X Bai Journal of guidance, control, and dynamics 42 (3), 585-597, 2019 | 71 | 2019 |
| Modified Chebyshev-Picard iteration methods for orbit propagation X Bai, JL Junkins The Journal of the Astronautical Sciences 58 (4), 583-613, 2011 | 67 | 2011 |
| Task-constrained trajectory planning of free-floating space-robotic systems using convex optimization G Misra, X Bai Journal of Guidance, Control, and Dynamics 40 (11), 2857-2870, 2017 | 65 | 2017 |
| Finite-time control for asteroid hovering and landing via terminal sliding-mode guidance H Yang, X Bai, H Baoyin Acta Astronautica 132, 78-89, 2017 | 64 | 2017 |
| Quadrotor autonomous approaching and landing on a vessel deck L Wang, X Bai Journal of Intelligent & Robotic Systems 92, 125-143, 2018 | 55 | 2018 |
| Optimal path planning for free-flying space manipulators via sequential convex programming G Misra, X Bai Journal of Guidance, Control, and Dynamics 40 (11), 3019-3026, 2017 | 52 | 2017 |
| Comparative evaluation of three machine learning algorithms on improving orbit prediction accuracy H Peng, X Bai Astrodynamics 3 (4), 325-343, 2019 | 48 | 2019 |
| Exploring capability of support vector machine for improving satellite orbit prediction accuracy H Peng, X Bai Journal of Aerospace Information Systems 15 (6), 366-381, 2018 | 48 | 2018 |
| Picard iteration, chebyshev polynomials and chebyshev-picard methods: Application in astrodynamics JL Junkins, A Bani Younes, RM Woollands, X Bai The Journal of the Astronautical Sciences 60, 623-653, 2013 | 45 | 2013 |
| Machine learning approach to improve satellite orbit prediction accuracy using publicly available data H Peng, X Bai The Journal of the astronautical sciences 67 (2), 762-793, 2020 | 44 | 2020 |
| Modified Chebyshev‐Picard iteration methods for station‐keeping of translunar Halo orbits X Bai, JL Junkins Mathematical Problems in Engineering 2012 (1), 926158, 2012 | 43 | 2012 |
| Modified Chebyshev-Picard iteration methods for solution of initial value problems X Bai, JL Junkins The Journal of the Astronautical Sciences 59 (1), 327-351, 2012 | 38 | 2012 |
| Extended neuro-fuzzy models of multilayer perceptrons D Zhang, XL Bai, KY Cai Fuzzy sets and systems 142 (2), 221-242, 2004 | 34 | 2004 |
| Gaussian Processes for improving orbit prediction accuracy H Peng, X Bai Acta astronautica 161, 44-56, 2019 | 33 | 2019 |
