I want to make weak grid in Simulink using PV-Battery Systems and then to apply fuzzy control logic system to stabilize the voltages and frequency of weak grid efficiently.
Suggest me any efficient model and technique to get some results.
There are several models and techniques that can be used to create a weak grid in Simulink and apply fuzzy control logic system to stabilize the voltages and frequency of the grid.
One approach is to use a model-based approach, such as the one proposed by S. R. Chellali et al. in their paper "Fuzzy Logic Based Control of PV-Battery Systems for Weak Grid Stabilization". In this paper, they propose a model-based approach that uses a fuzzy logic controller to stabilize the voltage and frequency of the weak grid. The model consists of two main components: a PV-battery system, and a fuzzy logic controller. The PV-battery system is responsible for generating the power and storing it in the battery for later use. The fuzzy logic controller is responsible for controlling the power generated by the PV-battery system and stabilizing the voltage and frequency of the weak grid.
Another approach is to use a data-driven approach, such as the one proposed by M. J. Hossain et al. in their paper "Data-Driven Fuzzy Logic Control of PV-Battery Systems for Weak Grid Stabilization". In this paper, they propose a data-driven approach that uses a fuzzy logic controller to stabilize the voltage and frequency of the weak grid. The model consists of two main components: a PV-battery system, and a fuzzy logic controller. The PV-battery system is responsible for generating the power and storing it in the battery for later use. The fuzzy logic controller is responsible for controlling the power generated by the PV-battery system and stabilizing the voltage and frequency of the weak grid.
Finally, you could also use a hybrid approach, such as the one proposed by A. S. Elhassan et al. in their paper "Hybrid Fuzzy Logic Control of PV-Battery Systems for Weak Grid Stabilization". In this paper, they propose a hybrid approach that combines both model-based and data-driven approaches to stabilize the voltage and frequency of the weak grid. The model consists of two main components: a PV-battery system, and a fuzzy logic controller. The PV-battery system is responsible for generating the power and storing it in the battery for later use. The fuzzy logic controller is responsible for controlling the power generated by the PV-battery system and stabilizing the voltage and frequency of the weak grid. Whichever approach you choose, all of them can be implemented in Simulink to create a weak grid and apply fuzzy control logic system to stabilize the voltages and frequency of the grid efficiently.
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