Nonlinear network dynamics for interconnected micro-grids

TL;DR

This paper investigates the transient stability of interconnected micro-grids by classifying their dynamic responses, exploring analogies with consensus systems, and extending analysis to handle measurement disturbances and uncertainties.

Contribution

It introduces a robust classification method for micro-grid transient dynamics and extends the analysis to disturbed measurements and uncertainties.

Findings

Classification of micro-grid dynamics into different intervals

Analogies established with consensus dynamics and damping bounds

Extension of stability analysis to disturbed measurements

Abstract

This paper deals with transient stability in interconnected micro-grids. The main contribution involves i) robust classification of transient dynamics for different intervals of the micro-grid parameters (synchronization, inertia, and damping); ii) exploration of the analogies with consensus dynamics and bounds on the damping coefficient separating underdamped and overdamped dynamics iii) the extension to the case of disturbed measurements due to hackering or parameter uncertainties.