Randomness from the power load demand and renewable generations causes frequency oscillations among interconnected power systems. Due to the requirement of synchronism of the whole grid, load frequency control (LFC) has become one of the essential challenges for power system stability and security. In this paper, by modeling the disturbances and parameter uncertainties into the LFC model, we propose an adaptive supplementary control scheme for the power system frequency regulation. An improved sliding mode control (SMC) is employed as the basic controller, where a new sliding mode variable is specifically proposed for the LFC problem. The adaptive dynamic programming strategy is used to provide the supplementary control signal, which is ben...
Owing to random load changes and transmission time delays in interconnected power systems with renew...
A design of Sliding Mode Control (SMC) is proposed in this work for Load Frequency Control (LFC) in ...
Nowadays, the power systems are getting more and more complicated because of the delays introduced b...
Randomness from the power load demand and renewable generations causes frequency oscillations among ...
This paper proposes a new robust load frequency control (LFC) scheme for multiarea power systems bas...
Most of the existing results for load frequency control of multi-area interconnected power systems c...
The robust stability and stabilization of adaptive event-triggered load frequency control (LFC) with...
A sliding mode based load frequency controller is applied to a two-area power system. Non-reheat and...
In the power system, the loads and nonlinearity parameters cause the system frequency deviation, whi...
This paper presents a memory-based adaptive sliding mode load frequency control (LFC) strategy aimed...
Abstract Owing to random load changes and transmission time delays in interconnected power systems w...
At present, simple and classical tuned controllers are widely used in the power system load frequenc...
© Copyright 2017 Inderscience Enterprises Ltd. A robust load frequency controller is applied to a no...
Power systems are the most complex systems that have been created by men in history. To operate such...
In recent years, heuristics for adaptive solutions to load frequency control (LFC) in power systems ...
Owing to random load changes and transmission time delays in interconnected power systems with renew...
A design of Sliding Mode Control (SMC) is proposed in this work for Load Frequency Control (LFC) in ...
Nowadays, the power systems are getting more and more complicated because of the delays introduced b...
Randomness from the power load demand and renewable generations causes frequency oscillations among ...
This paper proposes a new robust load frequency control (LFC) scheme for multiarea power systems bas...
Most of the existing results for load frequency control of multi-area interconnected power systems c...
The robust stability and stabilization of adaptive event-triggered load frequency control (LFC) with...
A sliding mode based load frequency controller is applied to a two-area power system. Non-reheat and...
In the power system, the loads and nonlinearity parameters cause the system frequency deviation, whi...
This paper presents a memory-based adaptive sliding mode load frequency control (LFC) strategy aimed...
Abstract Owing to random load changes and transmission time delays in interconnected power systems w...
At present, simple and classical tuned controllers are widely used in the power system load frequenc...
© Copyright 2017 Inderscience Enterprises Ltd. A robust load frequency controller is applied to a no...
Power systems are the most complex systems that have been created by men in history. To operate such...
In recent years, heuristics for adaptive solutions to load frequency control (LFC) in power systems ...
Owing to random load changes and transmission time delays in interconnected power systems with renew...
A design of Sliding Mode Control (SMC) is proposed in this work for Load Frequency Control (LFC) in ...
Nowadays, the power systems are getting more and more complicated because of the delays introduced b...