Design of intelligent load frequency control strategy using optimal fuzzy-PID controller

@article{Kouba2016DesignOI,
  title={Design of intelligent load frequency control strategy using optimal fuzzy-PID controller},
  author={Nour El Yakine Kouba and Mohamed Nabih Menaa and Mourad Hasni and Mohamed Boudour},
  journal={International Journal of Process Systems Engineering},
  year={2016},
  volume={4},
  pages={41}
}
This paper proposes a robust control strategy involving a novel optimised fuzzy-PID controller tuning by particle swarm optimisation (PSO) algorithm. The proposed control strategy was suggested to design an intelligent load frequency control (LFC) scheme in multi-area interconnected power system. The PSO algorithm was employed to optimise the fuzzy-PID controller parameters including the scaling factors of fuzzy logic and the PID controller gains for minimisation of both system frequency… 
View via Publisher
doi.org
7 Citations
Background Citations
2
Methods Citations
1

7 Citations

Intelligent Load Frequency Control in Presence of Wind Power Generation

  • N. KoubaM. Boudour
  • Engineering
    Modeling, Identification and Control Methods in Renewable Energy Systems
  • 2018
TLDR
An intelligent load frequency control (LFC) strategy based on Fuzzy Logic-PID controller to suppress all the fluctuations of the total power output of the wind generation and maintain the constancy of the system frequency is designed.

Optimized Radial Basis Function Neural Network Based Intelligent Control Algorithm of Unmanned Surface Vehicles

TLDR
A comparative study with the sliding mode control algorithm based on an RBF network and fuzzy neural network showed that, under the same conditions, the stabilization time of the intelligent control system was 33.33% faster, the average overshoot was reduced, the control input was smoother, and less chattering occurred compared to the previous two attempts.

Paper—Energy Management using Optimal Fuzzy Logic Control in Wireless Sensor Network Energy Management using Optimal Fuzzy Logic Control in Wireless Sensor Network

TLDR
The results show that the proposed FLC-PSO has the best performance among the four protocols and can be used efficiently in energy management of WSN.

A Fuzzy Logic Approach by Using Particle Swarm Optimization for Effective Energy Management in IWSNs

TLDR
A fuzzy logic based mechanism is proposed that, according to the battery level and the ratio of throughput to workload, defines the sleeping time of sensor devices in an IWSN based on IEEE 802.15.4 protocol.

Adaptive Sliding Mode Control for Unmanned Surface Vehicle with Fuzzy Switching

TLDR
Three fuzzy approximators are designed to estimate the above three unknown functions: the heading control law is designed by using the fuzzy switching method on the basis of Lyapunov stability theory, the simulation confirms the truth of the effectiveness of the algorithm.

Fuzzy RBF Neural Network Control for Unmanned Surface Vehicle

TLDR
The intelligent control method proposed realizes continuous and stable tracking of USV heading through simulation and was optimized online by RBF neural network with fast learning ability.

Optimal frequency regulation in an uncertain islanded microgrid: A modified direct search algorithm

References

SHOWING 1-10 OF 49 REFERENCES

PSO based tuning of PID controller for a Load frequency control in two area power system

TLDR
The results establishes that tuning the PID controller using the PSO technique gives less over shoot, system is less sluggish and reduces the integral Time absolute error( ITAE) Particle Swarm Optimization method finds the best parameters for controller and designed controller is an optimal controller.

A novel robust automatic generation control in interconnected multi-area power system based on bat inspired algorithm

TLDR
The novel design approach based on Bat algorithm is proposed to reach the optimal values of the Proportional-Integral-Derivation (PID) controller parameters in order to improve the load frequency control (LFC) and automatic voltage regulator (AVR).

Optimal fuzzy load frequency controller with simultaneous auto-tuned membership functions and fuzzy control rules

In this paper, an auto-tuned fuzzy load frequency controller (FLFC)-based articial bee colony (ABC) algorithm is developed to quench the deviations in the frequency and tie-line power due to load

Performance Analysis of Load Frequency Control in Single area Power System Using GA and PSO Based PID Controller

TLDR
Comparing with conventional Proportional-Integral (PI) method and the proposed PSO the performance of the controller is improved for the step input in Load frequency control.

Optimal control of frequency and voltage variations using PID controller based on Particle Swarm Optimization

This paper deals with an optimal tuning of the Proportional-Integral-Derivation (PID) controller for both Load Frequency Control (LFC) and Automatic Voltage Regulator (AVR) of two-area interconnected

Optimal load frequency control based on artificial bee colony optimization applied to single, two and multi-area interconnected power systems

This paper describes an application of Artificial Bee Colony (ABC) to load frequency control (LFC) in single, two and multi-area interconnected power systems. The proposed ABC algorithm is used to

Optimal load frequency control in interconnected power system using PID controller based on particle swarm optimization

Today load frequency control is becoming more important and significant in interconnected power system design and operation due to the complexity of power systems, changing structure, and emerging

Load Frequency Control in multi-area power system based on Fuzzy Logic-PID Controller

In an interconnected multi-area power system, as a power load demand varies randomly, in the case of any small sudden load change in any of the areas, both area frequency and tie-line power flow

Load Frequency Control of a Multi-Area Power System: An Adaptive Fuzzy Logic Approach

In this paper, a new load frequency control (LFC) for multi-area power systems is developed based on the direct-indirect adaptive fuzzy control technique. LFCs for each area are designed based on

Intelligent Automatic Generation Control of Two-Area Hydrothermal Power System Using ANN and Fuzzy Logic

  • R. VermaS. PalS. Sathans
  • Engineering
    2013 International Conference on Communication Systems and Network Technologies
  • 2013
TLDR
Comparative analysis of results shows considerable improvement in system performance with intelligent controllers following a load disturbance in either of the areas.