With the development of the times, new energy power generation and grid-connected technology is increasingly developed, and virtual synchronous generator (VSG) control technology is widely used to improve the grid stability of the power system of new energy power generation. The traditional VSG control system has more parameters with complex design, and the virtual inertia and damping parameters in the VSG determined artificially cannot be optimized, which has some influence on improving the stability of the power system. Since the traditional cuckoo search (CS) algorithm cannot optimize the virtual inertia and damping parameters of VSG. Therefore, to address this problem, this paper introduces chaotic mapping and adaptive change of search step to improve the algorithm's optimization ability and convergence speed on the basis of the original CS algorithm. The improved CS algorithm is used to optimize the parameters of the VSG, and the comparison of the simulation results under frequency fluctuation shows that the algorithm can effectively enhance the stability of the system.
In this paper, a heuristic intelligent optimization algorithm is proposed to optimize the controller parameters of the interconnected power system in two regions. This method uses the regional control deviation of each region as the objective function and uses the PID controller with improved whale optimization algorithm to control the load frequency, so as to minimize the fluctuation of the load frequency within the specified range. Finally, the simulation results show that the optimization method adopted in this paper has good control effect and robustness for both frequency deviation and regional control deviation of the system under different disturbance signals.
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