Fault-Tolerant Control of Magnetic Levitation System Based on State Observer in High Speed Maglev Train

In recent years, the high-speed rail train has achieved great progress, but the wheel-rail relationship and the catenary-pantograph relationship are the bottlenecks to further increase the speed. The maglev train is an entirely new mode of transport without wheels. It takes full advantage of electro...

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Bibliographic Details
Published inIEEE access Vol. 7; pp. 31624 - 31633
Main Authors Zhai, Mingda, Long, Zhiqiang, Li, Xiaolong
Format Journal Article
LanguageEnglish
Published Piscataway IEEE 2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Control systems design
Electric motors
Electromagnetic forces
Electromagnets
Failure analysis
Fault tolerance
Fault tolerant systems
fault-tolerant
Friction resistance
High speed maglev train
High speed rail
Magnetic levitation
Magnetic levitation railways
magnetic levitation system
Magnetic levitation systems
Magnetic sensors
Modular structures
observer
Observers
Pantographs
Redundancy
sensor
Sensors
State observers
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Summary:In recent years, the high-speed rail train has achieved great progress, but the wheel-rail relationship and the catenary-pantograph relationship are the bottlenecks to further increase the speed. The maglev train is an entirely new mode of transport without wheels. It takes full advantage of electromagnetic force to achieve active levitation and runs the train by the linear motor. It completely abandons the frictional resistance to speed up over 500 km/h practicably. The redundancy and fault tolerance of the magnetic levitation system, which is considered as the wheels of the high-speed maglev train, play a major role in the safety and reliability of high-speed maglev train. However, due to the failure of sensors and the existence of track seams, the suspension unit often breaks down. The performance of suspension join-structure under the modular redundancy strategy with sensor failure is analyzed and investigated. The investigation carried out by us reveals that the overall performance is unpleasant and the electromagnet fevers seriously. In order to solve this problem, we propose and design the state observer as a solution to construct the fault-tolerant control system. The designed observer is applied to estimate the gap measurement of the fault sensor so that the suspension unit will not fail. Therefore, The fault-tolerant control system based on state observer improves the redundancy and fault tolerance capacity of the magnetic levitation system with sensor failure significantly.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2019.2898108