Modeling and Simulation of a Two-Mass Resonant System with Speed Controller

Shahgholian, Ghazanfar

doi:10.7763/ijiee.2013.v3.355

Cited by 15 publications

(9 citation statements)

References 15 publications

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“…Typical structure of a two-mass system is shown in Figure 1 and Figure 2. The drive system can be described by the following linear dynamical in (1) [25].…”

Section: Modeling Of a Two-mass-systemmentioning

confidence: 99%

Intelligent torque observer combined with backstepping sliding-mode control for two-mass systems

Giang²

2022

IJPEDS

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The construction of a backstepping-sliding mode control using a high-gain observer's neural network for torque estimation is presented in this research. The correctness of the load torque data is crucial to solving the two-mass system control issue. The article suggests a radial basis function neural network topology to handle load torque estimation. When a non-rigid drive shaft is present, the predicted value is merged with backstepping-sliding mode control to ensure speed tracking performance. The closed-stability loop is demonstrated analytically and quantitatively to prove it. Additionally, a high-gain observer-based structure is used to compare the effectiveness of the proposed control. The effectiveness of the proposed control structure is demonstrated by MATLAB simulation.

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“…Typical structure of a two-mass system is shown in Figure 1 and Figure 2. The drive system can be described by the following linear dynamical in (1) [25].…”

Section: Modeling Of a Two-mass-systemmentioning

confidence: 99%

Intelligent torque observer combined with backstepping sliding-mode control for two-mass systems

Giang²

2022

IJPEDS

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“…SMC design is comprised of two basic steps: (i) the design of a sliding surface for obtaining desired dynamics and (ii) a control law that ensures reaching the sliding surface. Essentially, in a system controlled by an SM control, states dynamics consist of two modes: reaching mode and sliding mode [42]. In the reaching mode, the controller forces the states to reach the sliding surface.…”

Section: Sm Controlmentioning

confidence: 99%

Analysis and simulation of a sliding mode controller for mechanical part of a doubly‐fed induction generator‐based wind turbine

Jafari

Shahgholian

2017

IET Generation, Transmission & Distribution

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“…The two-mass resonance system is shown in Fig. 1 [9,10]. On the other hand, some important factors in controlling motor optimal, control the amount of overshoot, reduce the ripple amplitude, motor oscillations and reaching a steady state in the shortest time possible [11].…”

Section: Introductionmentioning

confidence: 99%

Motor Speed Maximum Control in the Resonance Ratio Controller for Two-Mass System using Self-Organizing Fuzzy Controller

2020

International Journal of Research Studies in Electrical and Ele

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According the importance of controlling the max¬i¬m¬¬um speed and overshoot in electric motors, and also according to the fact that at the start of a two-mass system with a resonance ratio controller, we will see severe fluctuations in the speed. The control the motor maximum speed in speed desired value is aim in this paper. To take action to achieve this goal, we will use the design incorporating a self-organizing fuzzy control system with a coefficient of resonant two-mass system. Self-organizing fuzzy controller is a combination of fuzzy control and adaptive, which along with the combination of self-organizing fuzzy control meth¬o¬ds, can created instructional with the ability to modify the rules in the knowledge base and incorporated into it, twomass system with a resonance ratio control system, the maximum eng¬ine speed can be adjusted to any desired value.

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Modeling and Simulation of a Two-Mass Resonant System with Speed Controller

Cited by 15 publications

References 15 publications

Intelligent torque observer combined with backstepping sliding-mode control for two-mass systems

Intelligent torque observer combined with backstepping sliding-mode control for two-mass systems

Analysis and simulation of a sliding mode controller for mechanical part of a doubly‐fed induction generator‐based wind turbine

Motor Speed Maximum Control in the Resonance Ratio Controller for Two-Mass System using Self-Organizing Fuzzy Controller

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