Passivity-short-based system-wide stability with L2 gain and stabilization of heterogeneous power systems

Abstract

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The problem of decentralized control for overall system stability has received increasing attention due to heterogeneity in power networks. To address this problem, two passivity indices are introduced to characterize the shortage of nonlinear negative imaginary property and $ L_2 $ stability of the coupling network. In a modular decomposition, novel passivity-short-based conditions in a decentralized manner are investigated to ensure asymptotically stability of the overall system and $ L_2 $ stability of the network simultaneously, which is so-called system-wide stability with $ L_2 $ gain. Furthermore, the local subsystems are equipped with a linear matrix inequality-based controller, implementing decentralized stabilization. A numerical simulation with three heterogeneous bus dynamics is illustrated to demonstrate the effectiveness of the proposed controller design considering load change and measurement errors, offering insights into system robustness.

Keywords

• heterogeneous power systems
• nonlinear negative imaginary (ni) property
• system-wide stability
• $ l_2 $ stability
• linear matrix inequality (lmi)