Xin Li
Orcid: 0000-0001-5209-8925Affiliations:
- Wuhan University, School of Geodesy and Geomatics, China (PhD 2021)
According to our database1,
Xin Li
authored at least 11 papers
between 2019 and 2024.
Collaborative distances:
Collaborative distances:
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Bibliography
2024
Advancing High-Precision Navigation: Leveraging Homogeneous Sensors in Tightly Coupled PPP-RTK/IMU Integration.
IEEE Trans. Ind. Electron., November, 2024
A Novel Factor Graph Framework for Tightly Coupled GNSS/INS Integration With Carrier-Phase Ambiguity Resolution.
IEEE Trans. Intell. Transp. Syst., October, 2024
BDS PPP ambiguity resolution using B1I/B2I/B3I/B1C/B2a observations with regional reference network augmentation.
Geo spatial Inf. Sci., September, 2024
GNSS-Based Cooperative Instantaneous Precise Positioning Aided by Multi-Epoch and Multi-Agent Associations.
IEEE Trans. Veh. Technol., June, 2024
A Failure-Resistant, Lightweight, and Tightly Coupled GNSS/INS/Vision Vehicle Integration for Complex Urban Environments.
IEEE Trans. Instrum. Meas., 2024
Precise and Robust IMU-Centric Vehicle Navigation via Tightly Integrating Multiple Homogeneous GNSS Terminals.
IEEE Trans. Instrum. Meas., 2024
Toward Wide-Area and High-Precision Positioning With LEO Constellation Augmented PPP-RTK.
IEEE Trans. Instrum. Meas., 2024
2023
Continuous Decimeter-Level Positioning in Urban Environments Using Multi-Frequency GPS/BDS/Galileo PPP/INS Tightly Coupled Integration.
Remote. Sens., April, 2023
A High-Precision Vehicle Navigation System Based on Tightly Coupled PPP-RTK/INS/Odometer Integration.
IEEE Trans. Intell. Transp. Syst., February, 2023
2022
Continuous and Precise Positioning in Urban Environments by Tightly Coupled Integration of GNSS, INS and Vision.
IEEE Robotics Autom. Lett., 2022
2019
Real-Time Kinematic Precise Orbit Determination for LEO Satellites Using Zero-Differenced Ambiguity Resolution.
Remote. Sens., 2019