Power system oscillations and control: Classifications and PSSs' design methods: A review
In this paper, a review of the classifications of power system oscillation modes, as well as
power system stabilizer (PSS) design structures, is proposed. Four major oscillation modes …
power system stabilizer (PSS) design structures, is proposed. Four major oscillation modes …
A comprehensive study of wide-area damping controller requirements through real-time evaluation with operational uncertainties in modern power systems
In interconnected modern power systems, renewable energy sources, HVDC transmission
lines, and energy storage devices are growing after being installed globally with …
lines, and energy storage devices are growing after being installed globally with …
Robust adaptive sliding mode control for switched networked control systems with disturbance and faults
M Li, Y Chen - IEEE Transactions on Industrial Informatics, 2018 - ieeexplore.ieee.org
In this paper, the problem of switched networked control systems (SNCSs) with external
disturbance and actuator/sensor faults is investigated. Meanwhile, the communication …
disturbance and actuator/sensor faults is investigated. Meanwhile, the communication …
Decentralized detection and mitigation of multiple false data injection attacks in multiarea power systems
This article presents an observer-based decentralized detection and mitigation (ODDM)
scheme for the interconnected power system subject to multiarea multichannel false data …
scheme for the interconnected power system subject to multiarea multichannel false data …
Coordinated control of electric vehicles and renewable energy sources for frequency regulation in microgrids
P Jampeethong, S Khomfoi - IEEE Access, 2020 - ieeexplore.ieee.org
A Control technique of electric vehicles (EVs) cooperating with ac microgrids is considered
as an important role with integration of renewable energy sources (RES), ie wind and solar …
as an important role with integration of renewable energy sources (RES), ie wind and solar …
A synchrophasor measurement based wide-area power system stabilizer design for inter-area oscillation damping considering variable time-delays
Owing to the everlasting growth of power demand and continual change in configuration of
modern power system, the role of electric utility in supplying secure and reliable power has …
modern power system, the role of electric utility in supplying secure and reliable power has …
A Wide-Area Dynamic Damping Controller Based on Robust H∞ Control for Wide-Area Power Systems With Random Delay and Packet Dropout
M Li, Y Chen - IEEE Transactions on Power Systems, 2017 - ieeexplore.ieee.org
Wide-area damping controller (WADC) is a very effective tool to damp out the low-frequency
oscillation in wide-area power systems. However, the WADC needs communication …
oscillation in wide-area power systems. However, the WADC needs communication …
Delay aware power system synchrophasor recovery and prediction framework
This paper presents a novel delay aware synchrophasor recovery and prediction framework
to address the problem of missing power system state variables due to the existence of …
to address the problem of missing power system state variables due to the existence of …
[HTML][HTML] Wide-area measurement-based two-level control design to tolerate permanent communication failures
MEC Bento - Energies, 2023 - mdpi.com
The operation of modern power systems must meet stability requirements to guarantee the
supply of electrical energy. One of these requirements is to ensure that the low-frequency …
supply of electrical energy. One of these requirements is to ensure that the low-frequency …
Synchrophasor recovery and prediction: A graph-based deep learning approach
Data integrity of power system states is critical to modern power grid operation and control
due to communication latency, state measurements are not immediately available at the …
due to communication latency, state measurements are not immediately available at the …