Continuing to summarize the mainstream measures and methods for improving voltage stability during wind power grid connection, including increasing reactive power compensation, optimizing voltage control, and introducing energy storage technology, the basic principles and. Continuing to summarize the mainstream measures and methods for improving voltage stability during wind power grid connection, including increasing reactive power compensation, optimizing voltage control, and introducing energy storage technology, the basic principles and. Integrating wind energy into power systems can negatively impact stability by reducing oscillation damping. Wind Turbine Voltage Regulators (WT VRs) are designed to manage reactive power and maintain voltage stability; however, they often do not coordinate efectively with Power System Stabilizers. This article first briefly introduces two types of wind power generation system grid connection technologies and analyzes the categories and influencing factors of wind power generation voltage stability. This study utilizes the GOOSE Optimization Algorithm (GOA) to. This paper comprehensively reviews the problems of voltage instability in wind-integrated power systems, its causes, consequences, improvement techniques, and implication of grid codes to keep the operation of the network secure. Thorough understanding of the underlying issues related to voltage.