Dynamic response force control of electrohydraulic servo actuator of active suspension based on intelligent optimization algorithm. [PDF]
PLoS ONETraditional PID control faces challenges in addressing parameter uncertainty and nonlinearity in active suspension electrohydraulic servo actuators, leading to suboptimal performance. To address these challenges, a fractional-order PID (FOPID) controller
Qinghe Guo +5 more
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Bayat-driven FOPID controller design for biogas-based microgrid with real-time validation [PDF]
Scientific ReportsThe energy policies of the $$21^{st}$$ century are increasingly focused on promoting generation solutions with minimal environmental impact. In response to strategic initiatives, the accelerating depletion of fossil fuel reserves has led to integrating ...
T. K. Bashishtha +3 more
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Fractional-order PID control for elevation and azimuth in a twin rotor system [PDF]
Scientific ReportsThis paper presents a real-time application of fractional-order PID (FOPID or PI $$^{\lambda }$$ D $$^{\mu }$$ ) control for a twin rotor system, optimizing performance beyond conventional PID approaches.
Abebe Alemu Wendimu +3 more
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Modeling and performance analysis of FOPID controller for interacting coupled tank system [PDF]
FME Transactions, 2023 Process control is fundamental in modern interaction since it ensures security and improvement in a cycle. Furthermore, process control is a valuable apparatus to fulfill the ecological strategy and item quality necessities.
Ramesh Thelkar Amruth +6 more
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Synchronization of Microgrid Considering the Dynamics of V2Gs Using an Optimized Fractional Order Controller based Scheme [PDF]
Journal of Operation and Automation in Power Engineering, 2021 In this work, a new control scheme for synchronization of AC microgrids with upstream power grid is presented. The effects of V2Gs (vehicle to grid) dynamics on synchronization process is studied.
A. Khorshidi, T. Niknam, B. Bahmani
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Mitigation of Derivative Kick Using Time-Varying Fractional-Order PID Control
IEEE Access, 2021 In this paper, a novel approach for the design of a fractional order proportional integral derivative (FOPID) controller is proposed. This design introduces a new time-varying FOPID controller to mitigate a voltage spike at the controller output whenever
Attila Lendek, Lizhe Tan
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Problems in solving fractional differential equations in a microcontroller implementation of an FOPID controller [PDF]
Archives of Electrical Engineering, 2019 The article focuses on the fractional-order backward difference, sum, linear time-invariant equation analysis, and difficulties of the fractional calculus microcontroller implementation with regard to designing a fractional-order proportional integral ...
Mariusz Matusiak, Piotr Ostalczyk
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Fractal and Fractional, 2023 An improved design optimization method for fractional-order-based proportional integral derivative (FOPID) controllers is proposed in this paper to enhance the stability and transient response of automatic voltage-regulator systems.
Abdullah M. Noman +5 more
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Journal of King Saud University: Engineering Sciences, 2020 In this paper, a Firefly Algorithm (FA) based Fractional Order PID (FOPID) Controller is proposed for Brushless DC (BLDC) motor to achieve an effective control of torque and speed.
Bapayya Naidu Kommula +1 more
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Robust fractional order PID controller synthesis for the first order plus integral system
Measurement + Control, 2023 The fractional order PID (FOPID) controller has been found to have the potential to provide more flexibility in the design options than the integer order PID (IOPID) controller.
Weijia Zheng +4 more
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