Oscillatory stability has received immense attention in recent years due to the significant
increase in power electronic converter (PEC)-interfaced renewable energy sources …

Clustering strategies are becoming increasingly relevant to boost the scalability of
distributed control methods by focusing the cooperation efforts on highly coupled agents …

Marginal-cost-based dynamic pricing of electricity services, including real power, reactive
power, and reserves, may provide unprecedented efficiencies and system synergies that are …

Phasor measurement units (PMUs) are rapidly being deployed in electric power networks
across the globe. Wide-area measurement system (WAMS), which builds upon PMUs and …

Inter-area oscillations in bulk power systems are typically poorly controllable by means of
local decentralized control. Recent research efforts have been aimed at developing wide …

Behavioral systems theory decouples the behavior of a system from its representation. A key
result is that, under a persistency of excitation condition, the image of a Hankel matrix …

We employ a novel data-enabled predictive control (DeePC) algorithm in voltage source
converter (VSC)-based high-voltage DC (HVDC) stations to perform safe and optimal wide …

Control is and will continue to be a key discipline for realizing the objectives of smart grid
initiatives. Research in control science and engineering is not limited to one or a few …

A key element in the development of smart power transmission systems over the past
decade is the tremendous advancement of the Wide-Area Measurement System (WAMS) …

System strength is both supplied and demanded in a power system during normal
operations and in the presence of disturbances. This is characterised by stable voltage and …