Design of a 2-DOF-PID controller using an improved sine–cosine algorithm for load frequency control of a three-area system with nonlinearities

Gupta, Neelesh; Kar, Manoj Kumar; Singh, Arun Kumar

doi:10.1186/s41601-022-00255-w

Cited by 15 publications

(5 citation statements)

References 31 publications

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“…The filter is used to avoid noise affected by derivative actions. The mathematical equation for 2DOFPID is given as [43]:…”

Section: Two-degree-of-freedom Pid Voltage Loopmentioning

confidence: 99%

A Two-Degree-of-Freedom PID Integral Super-Twisting Controller Based on Atom Search Optimizer Applied to DC-DC Interleaved Converters for Fuel Cell Applications

Saadi,

Hammoudi,

Salah

et al. 2023

Electronics

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This paper focuses on the real-time implementation of an optimal high-performance control applied to an interleaved nonisolated DC/DC converter designed for fuel cell applications. Three-phase interleaved boost converters are utilized to minimize input current undulation, increase efficiency, and provide a high output voltage in order to ensure the performance of the FC stack. The proposed control strategy contains an outer loop that generates the reference current based on a two-degree-of-freedom PID controller. This controller provides a robust setpoint tracking and disturbance rejection, which improves the system’s response and efficiency. A fast inner regulation loop based on a super-twisting integral sliding mode (STISM) algorithm is developed to achieve a fixed converter output voltage, equitable phase current sharing, and fast regulation against load disturbances in failure operation. The STISM algorithm exhibits a rapid convergence property of the sliding mode and effectively avoids the chattering phenomena frequently observed in conventional sliding modes. The proposed controller’s gains are determined using the atom search optimization algorithm, which ensures exceptional reliability and a high degree of robustness and stability of the controllers under a variety of operational conditions. This method is inspired from the behavior of atoms and their electrons during the excitation process leading to a one-of-a-kind optimization technique which contributes to the controller’s reliability. Using Matlab-Simulink simulation tools, the efficacy and performance of the designed control have first been evaluated and assessed and compared with other optimization algorithms, and then with a dual loop based on a PID controller. Then, they have been verified by real-time hardware implementation on a 1.2 KW prototype FC converter driven by the dSPACE-1104 card under a variety of tests. The suggested approach offers impressive experimental results in dynamic and steady states.

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“…The filter is used to avoid noise affected by derivative actions. The mathematical equation for 2DOFPID is given as [43]:…”

Section: Two-degree-of-freedom Pid Voltage Loopmentioning

confidence: 99%

A Two-Degree-of-Freedom PID Integral Super-Twisting Controller Based on Atom Search Optimizer Applied to DC-DC Interleaved Converters for Fuel Cell Applications

Saadi,

Hammoudi,

Salah

et al. 2023

Electronics

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“…The transfer function model for the proposed controller is depicted in Figure 6. The mathematical modeling of the cascaded 2-DOF (PI) and PDF controller is given in Equations ( 26) and ( 27) [58]:…”

Section: Controller Formulationmentioning

confidence: 99%

“…( ) ( ) The mathematical modeling of the cascaded 2-DOF (PI) and PDF controller is given in Equations ( 26) and ( 27) [58]:…”

Section: Controller Formulationmentioning

confidence: 99%

Integrating Demand Response for Enhanced Load Frequency Control in Micro-Grids with Heating, Ventilation and Air-Conditioning Systems

et al. 2023

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Heating, ventilation and air-conditioning (HVAC) systems constitute the majority of the demands in modern power systems for aggregated buildings. However, HVAC integrated with renewable energy sources (RES) face notable issues, such as uneven demand–supply balance, frequency oscillation and significant drop in system inertia owing to sudden disturbances in nearby generation for a longer period. To overcome these challenges, load frequency control (LFC) is implemented to regulate the frequency, maintain zero steady-state error between the generation and demand, reduce frequency deviations and balance the active power flow with neighboring control areas at a specified value. In view of this, the present paper investigates LFC with a proposed centralized single control strategy for a micro-grid (µG) system consisting of RESs and critical load of a HVAC system. The proposed control strategy includes a newly developed cascaded two-degree-of-freedom (2-DOF) proportional integral (PI) and proportional derivative filter (PDF) controller optimized with a very recent meta-heuristic algorithm—a modified crow search algorithm (mCSA)—after experimenting with the number of performance indices (PICs). The superiority of both the proposed optimization algorithm and the proposed controller is arrived at after comparison with similar other algorithms and similar controllers, respectively. Compared to conventional control schemes, the proposed scheme significantly reduces the frequency deviations, improving by 27.22% from the initial value and reducing the performance index criteria (ƞISE) control error to 0.000057. Furthermore, the demand response (DR) is implemented by an energy storage device (ESD), which validates the suitability of the proposed control strategy for the µG system and helps overcome the challenges associated with variable RESs inputs and load demand. Additionally, the improved robustness of the proposed controller for this application is demonstrated through sensitivity analysis with ±20% μG coefficient variation.

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“…The PIDN controller comprises of P, I, D controller with a derivative filter coefficient N and the PIDFN controllers is of the form of PI λ D µ and a derivative filter coefficient N. λ and µ are the order of integrators and differentiators respectively. With the inclusion of a fractional order PIDN controller, the integer order PIDN controller may be extended from point to plane, making the PIDN control method more adaptable and robust [20], [21].The scaling parameters provided by the advanced control optimization, the gain parameters of a cascaded PIDFN controller becomes more flexible [22], [23] and by implementing a fuzzy PID filter [24].…”

Section: Controller Designmentioning

confidence: 99%

A modified differential evolution algorithm for frequency management of interconnected hybrid renewable system

Mishra

Maharana

Kar

et al. 2023

IJPEDS

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In recent decades, the insufficiency in power production has led to the incorporation of renewable energy sources into microgrid systems. However, ambiguity in the generation of renewable sources and load variation impacts on the system frequency influencing the stable operation of microgrid system. To augment the stable operation of the system an intelligent controller is required for continuous electric power. The implementation of a modified differential evolution (MDE)-based cascaded PIDFN controller using ITAE is proposed in this work. In order to demonstrate the robustness and efficacy of the proposed MDE optimization technique is compared with DE, TLBO, IWO and PSO.MDE-based cascaded PIDFN controller is implemented for governing the frequency in two-area interconnected microgrid system. The system is substantiated over load perturbations, system uncertainties, communication delay and real time data of solar irradiance and wind speed and action of UPFC in MATLAB<sup>®</sup>/SIMULINK environment.

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Design of a 2-DOF-PID controller using an improved sine–cosine algorithm for load frequency control of a three-area system with nonlinearities

Cited by 15 publications

References 31 publications

A Two-Degree-of-Freedom PID Integral Super-Twisting Controller Based on Atom Search Optimizer Applied to DC-DC Interleaved Converters for Fuel Cell Applications

A Two-Degree-of-Freedom PID Integral Super-Twisting Controller Based on Atom Search Optimizer Applied to DC-DC Interleaved Converters for Fuel Cell Applications

Integrating Demand Response for Enhanced Load Frequency Control in Micro-Grids with Heating, Ventilation and Air-Conditioning Systems

A modified differential evolution algorithm for frequency management of interconnected hybrid renewable system

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