This paper introduces an approach for designing gain-scheduled dynamic output feedback controllers for continuous-time Linear Parameter-Varying (LPV) systems. The aim is to improve transient response by incorporating both -stability and criteria into the synthesis conditions. We achieve this by employing changes of variables and congruence transformations, which lead to new synthesis conditions expressed as linear matrix inequalities. Additional fine-tuned scalar parameters can be used to enhance further the controller performance in terms of less conservative guaranteed costs. To assess the effectiveness of our proposed synthesis procedure, we conduct computational experiments in the context of a microinverter-based distributed power generation system. These experiments take into account real-world operational characteristics, providing a comprehensive evaluation of our approach. The results demonstrate that the designed controller effectively ensures the desired closed-loop system behavior, even when dealing with state noise and discretization errors originating from digital implementation.

中文翻译：

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[公式略]应用于电力微电网的瞬态性能增益调度动态输出反馈控制

本文介绍了一种为连续时间线性参数变化 (LPV) 系统设计增益调度动态输出反馈控制器的方法。目的是通过将稳定性和标准纳入合成条件来改善瞬态响应。我们通过采用变量的变化和同余变换来实现这一点，这导致了表示为线性矩阵不等式的新综合条件。额外的微调标量参数可用于进一步增强控制器在不太保守的保证成本方面的性能。为了评估我们提出的综合程序的有效性，我们在基于微型逆变器的分布式发电系统的背景下进行了计算实验。这些实验考虑了现实世界的操作特征，为我们的方法提供了全面的评估。结果表明，即使在处理源自数字实现的状态噪声和离散化误差时，设计的控制器也能有效确保所需的闭环系统行为。