Author Info
Name
Affiliation
Papers
XIAOLIN NING
Beijing University of Aeronautics and Astronautics, School of Instrumentation Science & Opto-electronics Engineering, Beijing 100083, China
21
Collaborators
Citations 
PageRank 
61
18
8.60
Referers 
Referees 
References 
60
269
87
Search Limit
100269
Title
Citations
PageRank
Year
Effects of Different Head Models in Wearable OPM-MEG00.342022
Multiple Source Detection Based on Spatial Clustering and Its Applications on Wearable OPM-MEG00.342022
DMS-SK/BLSTM-CTC Hybrid Network for Gesture/Speech Fusion and Its Application in Lunar Robot-Astronauts Interaction00.342022
Celestial Spectrum Velocimetry With Non-Linear Fourier Phase Shift and Its CRLB00.342022
Hybrid Optimal Design Of Biplanar Coils With Uniform Magnetic Field Or Field Gradient00.342021
Intelligent Modeling for Transfer Function Control of DBR Semiconductor Laser at Near-Working Point.00.342020
Spacecraft Autonomous Navigation Using the Doppler Velocity Differences of Different Points on the Solar Disk00.342020
Fast Butterfly Epoch Folding-Based X-Ray Pulsar Period Estimation With a Few Distorted Profiles.00.342020
Geometric Coplanar Constraints-Aided Autonomous Celestial Navigation For Spacecraft In Deep Space Exploration00.342019
Geometry error analysis in solar Doppler difference navigation for the capture phase00.342019
Anomaly Detection for Videos of Crowded Scenes based on Optical Flow Information00.342018
A Novel Autonomous Celestial Navigation Method Using Solar Oscillation Time Delay Measurement.00.342018
Spacecraft angular velocity estimation method using optical flow of stars.00.342018
Impact of the Pulsar's Direction on CNS/XNAV Integrated Navigation.00.342017
Recursive adaptive filter using current innovation for celestial navigation during the Mars approach phase.30.672017
A Novel Differential Doppler Measurement-Aided Autonomous Celestial Navigation Method for Spacecraft During Approach Phase.00.342017
An Implicit UKF for Satellite Stellar Refraction Navigation System.10.372017
A Two-Mode INS/CNS Navigation Method for Lunar Rovers80.752014
A celestial assisted INS initialization method for lunar explorers.10.402011
Installation direction analysis of star sensors by hybrid condition number40.962009
A new autonomous celestial navigation method for the lunar rover10.392009