A novel single-input interval type-2 fractional-order fuzzy controller for systems with parameter uncertainty

Aliasghary, Mortaza; Mohammadikia, Reza

doi:10.1007/s00500-021-06542-2

Soft Comput

2021

DOI: 10.1007/s00500-021-06542-2

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A novel single-input interval type-2 fractional-order fuzzy controller for systems with parameter uncertainty

Mortaza Aliasghary

Reza Mohammadikia

Abstract: The current study presented a novel single-input control technique, called the single-input interval type-2 fractional-order fuzzy (SIT2FOF) controller. This controller is suitable for the control problems in which the plant deals with hard external disturbance and model uncertainties. Fractional calculus and interval type-2 fuzzy sets are considered as two seminal parts of the SIT2FOF controller which provide robust control performance. In addition, single-input interval type-2 fuzzy (SIT2F) sets in the struc… Show more

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Cited by 7 publications

References 42 publications

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Predictive control of interconnected fractional‐order systems with communication delays: An application for load frequency control of power system

Mohammadikia,

Tavakoli‐Kakhki

2024

Asian Journal of Control

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This research focuses on constrained model predictive control (CMPC) problem for interconnected fractional‐order systems (IFOS). Communication delays and imposed disturbances are considered in the design procedure of the control system. The dynamic equations of the IFOS are reformulated to handle the interaction delays and to obtain a model for the overall system. Then, a constrained model predictive controller is designed for the input and output (I/O) oriented model of the IFOS. To solve this control problem, a quadratic programming algorithm is utilized to obtain the optimal solution. Since most of the power systems exhibit an interconnected structure and consist of several subsystems, this study considers the load frequency control (LFC) problem for an interconnected fractional‐order power system in the presence of communication delays to evaluate the proposed technique. Numerical simulations are provided for two different cases, and the results are reported.

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Predictive control of interconnected fractional‐order systems with communication delays: An application for load frequency control of power system

Mohammadikia,

Tavakoli‐Kakhki

2024

Asian Journal of Control

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Stability assessment using adaptive interval type-2 fuzzy sliding mode controlled power system stabilizer

Swain¹,

Ray²,

Jena³

et al. 2023

Soft Comput

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The low frequency electromechanical oscillations (LFEOs) in electric power system are because of weaker inter-ties, uncertainties, various faults and disturbances. These LFEOs (0.2-3 Hz.) are less in magnitude and are responsible for lower power transfer, increased losses and also threaten the stability of power system.An adaptive interval type-2 fuzzy sliding mode controlled power system stabilizer (AIT2FSMC-PSS) is presented to neutralize the LFEOs and enhance stability under uncertainties and external disturbances. The AIT2FSMC is a hybridization of type-2 fuzzy logic system (T2FLS) with conventional SMC to lower the chattering effect, enhance the robustness of reaching phase and improve system's performance. Here, T2FLS is used for estimating the unknown functions of SMC. A robust sliding surface is presented to keep the system in the desired plane and remain stable under disturbance conditions. A modified control law is proposed for selecting the control parameters and Lyapunov synthesis is used to make the error asymptotically converging to zero. The effectiveness of the AIT2FSMC-PSS is accessed in single and multimachine power systems subjected to various uncertainties and disturbances. Again, comparison of performance indices (PIs), Eigen values, damping ratios, oscillating frequencies, integral time absolute error (ITAE), figure of demerit (FD) and frequency domain plots like Bode, root locus and Nyquist plots are also analyzed to access the efficacy of the proposed stabilizer. The simulated responses, comparative study and frequency plots conform the supremacy of the proposed AIT2FSMC-PSS in suppressing the LFEOs with lesser settling characteristics, offer stable performance and assures transient stability of power system as compared to other stabilizers.

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An efficient fractional-order self-adjusted fuzzy PD regulator for nonlinear mechanical systems

Kumar,

Rana,

Singh

2024

Chaos, Solitons & Fractals

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A novel single-input interval type-2 fractional-order fuzzy controller for systems with parameter uncertainty

Cited by 7 publications

References 42 publications

Predictive control of interconnected fractional‐order systems with communication delays: An application for load frequency control of power system

Predictive control of interconnected fractional‐order systems with communication delays: An application for load frequency control of power system

Stability assessment using adaptive interval type-2 fuzzy sliding mode controlled power system stabilizer

An efficient fractional-order self-adjusted fuzzy PD regulator for nonlinear mechanical systems

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