Grid Continuous Positioning Technology for Urban Rail Transit CBTC Wireless Environment Monitoring System Based on Inertial Navigation
Journal Title: Urban Mass Transit - Year 2024, Vol 27, Issue 8
Abstract
Objective The current secondary positioning system of urban rail transit train beacons has a positioning accuracy of 300 meters, failing to meet the high-precision positioning requirements of wireless environment monitoring grid. Additionally, GPS (global positioning system) and the Beidou Satellite Navigation System are not suitable for underground rail positioning. Therefore, it is necessary to conduct in-depth research on continuous positioning technology for urban rail transit CBTC (communication-based train control) wireless environment monitoring grid. Method Building on the existing urban rail transit train beacon secondary positioning system, an inertial navigation technology enhanced by beacon-assisted training is adopted. By utilizing a multi-sensor fusion positioning algorithm, the sensor data from the inertial navigation module is integrated with the beacon data from the ATS (automatic train supervision) system, thus achieving the continuous positioning of wireless environment monitoring grid in urban rail transit. Additionally, a regression prediction algorithm is used for offline model training to enhance the accuracy of continuous positioning for the urban rail transit wireless environment monitoring grid. Result & Conclusion The proposed methods can achieve continuous and real-time positioning of wireless environment monitoring grid, supporting CBTC wireless environment monitoring grid in tunnels, beneath elevated structures, and in complex environments where metro train passing through areas with tall buildings and tree cover. The positioning accuracy reaches 10 m, meeting the positioning requirements of the CBTC wireless environment monitoring system, and fully ensuring the safety of the urban rail transit CBTC signaling system.
Authors and Affiliations
Hongyu LI, Jun ZHU, Lizhou WANG, Jie WU
Keywords
Related Articles
- EP ID EP742721
- DOI 10.16037/j.1007-869x.2024.08.050
- Views 53
- Downloads 0
Deformation Characteristics of Large Section Tunnel Surrounding Rock and Optimization of Tunnel Construction Scheme for Qingdao Metro Line
Objective The large section tunnel, due to flat shape and large span, usually adopts multiple steps and staged excavation. In the process of construction, the surrounding rock and the temporary support are repeatedly dis...
Metro Train Passenger Evacuation Model Based on NFPA 130:2023 Standard for Fixed Guideway Transit and Passenger RailSystems
[Objective] Due to the relatively confined space and high passenger capacity of metro trains, fire safety and life protection are attracting significant attentions in the public transportation industry. To evaluate the...
Pantograph Lifting Collision Characteristics under Complex Working Conditions
[Objective] To investigate the dynamics issues arising from the frequent lifting and lowering of pantographs in multi-mode hybrid traction trains, the pantograph collision characteristics are analyzed. [Method] Takin...
Design and Finite Element Analysis of Brake Disc Heat Dissipation Rib for Urban Rail Transit Vehicle
[Objective] At present, the heat dissipation performance of brake discs for urban rail transit vehicles needs to be improved. Therefore, it is necessary to study the optimization design scheme for a new type of heat diss...
Overall Overhead Property Development Scheme of Partially Operating Co-site Parking Lot
[Objective] In order to fully utilize the increasingly scarce urban land resources of Suzhou and leverage its geographical advantages, taking Sangtian Island Co-site Parking Lot of Suzhou Rail Transit Line 2 and Line 6 a...