Event-triggered Communication in Wide-area Damping Control: A Limited Output Feedback Based Approach

TL;DR

This paper introduces an event-triggered communication scheme for wide-area damping control in power systems, reducing communication load while ensuring system stability through a stability-based triggering condition.

Contribution

It proposes a novel limited output feedback event-triggered mechanism for power system damping control, guaranteeing stability and reducing communication requirements.

Findings

Effective communication reduction demonstrated in simulations

Maintains system stability with event-triggered control

Validated on two power system models

Abstract

A conceptual design methodology is proposed for event-triggered based power system wide area damping controller. The event-triggering mechanism is adopted to reduce the communication burden between origin of the remote signal and the wide area damping controller (WADC) location. The remote signal is transmitted to the WADC only when an event-triggering condition based on a predefined system output, is satisfied. The triggering condition is derived from a stability criterion, and is monitored continuously by a separate event-monitoring unit located at the origin of the remote signal. The stability of the resulting closed loop system is guaranteed via the input-to-state stability (ISS) technique. The proposed event triggered WADC (ET-WADC) is implemented on two typical test power systems - two area four machine and IEEE 39 bus 10 machine. The validation of proposed mechanism is carried out through non-linear simulation studies on MATLAB/Simulink platform. The numerical results show the efficacy of the controller in managing the communication channel usage without compromising the stated system stability objectives.