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Fig 1.

Smart Grid Architecture.

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Fig 2.

Grid-Support Inverter and Grid-Forming Inverter.

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Fig 3.

Power Management Control Strategies in a PV-based smart grid.

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Fig 4.

Control strategies for grid-support inverters.

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Fig 5.

The voltage and frequency regulation in islanded mode.

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Fig 6.

The power-sharing mechanisms based on droop control in a distributed generation system with multiple inverters.

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Fig 7.

PV-Based Smart Grid System with grid support and grid-forming inverters.

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Fig 8.

Simulation schematic model.

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Table 1.

Parameter.

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Table 1 Expand

Fig 9.

Power flow dynamics over 24 hours for a grid-connected system.

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Fig 10.

The grid-supporting inverters maintain stable voltage and frequency with load conditions in grid-connected mode.

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Fig 11.

The grid-forming inverters maintain stable voltage and frequency with load conditions varying in Island mode.

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Fig 12.

Battery and Grid-forming inverter response during the fluctuation in PV output.

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Fig 13.

The inverter maintains voltage and frequency stability during fluctuations in PV output.

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Fig 14.

Prolonged Low-Irradiance Stress Scenario.

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Fig 15.

Large-Scale Load Variation (Demand Shock) Stress Scenario.

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Fig 16.

Sensitivity Analysis.

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