Discrete Centralized AGC Using LQR-Based Cost Functional Minimization for Multi-Area Interconnected Power Systems

Discrete Centralized AGC Using LQR-Based Cost Functional Minimization for Multi-Area Interconnected Power Systems

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This paper proposes the design of Discrete Centralized Optimal Quadratic Automatic Generation Control (COQAGC) based on the functional minimization method (FMM) and optimal control theory for interconnected power systems.The cost function and Kadar Albumin Pada Ikan Sidat Anguilla marmorata Q Gaimard dan Anguilla bicolor Asal Sungai Palu dan Danau Poso FMM design requirements are defined in terms of area control errors, integral area control errors, and control signals.FMM is an optimal method, an easy and systematic approach for constructing and selecting state and control weighting matrices.

The performance of COQAGC on discrete two-area interconnected power systems with identical _non-reheat thermal turbines has been studied using 1% and 5% step load perturbations (SLPs) and sensitivity analysis.The Bacterial assessment of food handlers in Sari City, Mazandaran Province, north of Iran study has been extended to investigate the performance of COQAGC on discrete multi-area multi-source interconnected power systems with wind turbines.The simulation results revealed that developed COQAGC-based FMM improves the power system dynamics in terms of the steady-state performance and robustness against SLPs and parameter variations in comparison with controllers from the literature.

The developed method can be extended and implemented on large complex multi-area power systems.