[PDF][PDF] A Review of Electromagnetic Energy Regenerative Suspension System & Key Technologies.
C Fu, J Lu, W Ge, C Tan, B Li - Cmes-Computer Modeling in …, 2023 - cdn.techscience.cn
The active suspension has undoubtedly improved the performance of the vehicle, however,
the trend of “lowcarbonization, intelligence, and informationization” in the automotive …
the trend of “lowcarbonization, intelligence, and informationization” in the automotive …
Robust position control of a magnetic levitation system via dynamic surface control technique
ZJ Yang, K Miyazaki, S Kanae… - IEEE Transactions on …, 2004 - ieeexplore.ieee.org
This paper considers the position-tracking problem of a magnetic levitation system in the
presence of modeling errors due to uncertainties of physical parameters. A robust nonlinear …
presence of modeling errors due to uncertainties of physical parameters. A robust nonlinear …
Fuzzy control of nonlinear electromagnetic suspension systems
This paper presents a T–S model-based fuzzy controller design approach for
electromagnetic suspension systems. The T–S fuzzy model is firstly applied to represent the …
electromagnetic suspension systems. The T–S fuzzy model is firstly applied to represent the …
Robust dynamic sliding-mode control using adaptive RENN for magnetic levitation system
In this paper, a robust dynamic sliding mode control system (RDSMC) using a recurrent
Elman neural network (RENN) is proposed to control the position of a levitated object of a …
Elman neural network (RENN) is proposed to control the position of a levitated object of a …
Control approaches to the suppression of machining chatter using active magnetic bearings
M Chen, CR Knospe - IEEE Transactions on control systems …, 2007 - ieeexplore.ieee.org
Several control approaches to the active suppression of machining chatter, a self-excited
vibration that limits metal removal rate, are examined using a specially constructed turning …
vibration that limits metal removal rate, are examined using a specially constructed turning …
Input–output feedback linearization and speed control of a surface permanent-magnet synchronous wind generator with the boost-chopper converter
C ** control of a magnetic levitation system based on symbiotic organism search
U Sadek, A Sarjaš, A Chowdhury, R Svečko - Applied Soft Computing, 2017 - Elsevier
Magnetic levitation systems have become very important in many applications. Due to their
instability and high nonlinearity, such systems pose a challenge to many researchers …
instability and high nonlinearity, such systems pose a challenge to many researchers …
Feedback linearization of active magnetic bearings: current-mode implementation
M Chen, CR Knospe - IEEE/ASME Transactions on …, 2005 - ieeexplore.ieee.org
Feedback linearization is a promising approach to the nonlinear control problem posed by
active magnetic bearing systems. In this paper, feedback linearization is employed in …
active magnetic bearing systems. In this paper, feedback linearization is employed in …
Intelligent adaptive backstep** control system for magnetic levitation apparatus
FJ Lin, LT Teng, PH Shieh - IEEE transactions on magnetics, 2007 - ieeexplore.ieee.org
We propose an intelligent adaptive backstep** control system using a recurrent neural
network (RNN) to control the mover position of a magnetic levitation apparatus to …
network (RNN) to control the mover position of a magnetic levitation apparatus to …
Fractional PIλD Controller Design for a Magnetic Levitation System
Currently, there are no formalized methods for tuning non-integer order controllers. This is
due to the fact that implementing these systems requires using an approximation of the non …
due to the fact that implementing these systems requires using an approximation of the non …