Renewable energy systems have become an integral part of modern power grid operation, where the forecasting error is inevitable even though advanced prediction techniques are utilized. To improve the solution efficiency and accuracy of real-time optimal power flow (RTOPF), a three-stage framework for parallel processing is employed in this paper. In Stage 1, uncertainties from renewable generators and demand loads are characterized with scenarios. Large numbers of RTOPFs corresponding to each scenario are formulated and addressed in Stage 2, where the linear systems are regulated into the same sparsity pattern and then tackled in a batched style with the graphics processing unit (GPU). Results from Stage 2 are utilized in Stage 3 to perform...
In this paper, a modified Rao-2 (MRao-2) algorithm is proposed to solve the problem of optimal power...
Today's electricity grid is rapidly evolving, with increased penetration of renewable energy sources...
Abstract This paper uses enhanced turbulent flow in water-based optimization (TFWO), specifically ET...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
Future power networks are expected to incorporate a large number of distributed energy resources, wh...
Developing a suitable framework for real-time optimal power flow (RT-OPF) is of utmost importance fo...
This letter proposes a superior GPU-accelerated algorithm for probabilistic power flow (PPF) based o...
Optimal power flow OPF plays an important role in power system operation. The emerging smart grid ai...
There has been a strong increase of penetration of renewable energies into power systems. However, t...
The present study merges the teaching and learning algorithm (TLBO) and turbulent flow of water opti...
With the development of advanced power system controls, the industrial and research community is bec...
The smart grid leverages a variety of advanced technologies, including smart metering, smart equipme...
The security and economy of power system operation or planning are threatened by various uncertain f...
Developing a suitable framework for real-time optimal power flow (RT-OPF) is of utmost importance fo...
Real-time contingency analysis (RTCA) is paramount for modern power systems as it forms the basis fo...
In this paper, a modified Rao-2 (MRao-2) algorithm is proposed to solve the problem of optimal power...
Today's electricity grid is rapidly evolving, with increased penetration of renewable energy sources...
Abstract This paper uses enhanced turbulent flow in water-based optimization (TFWO), specifically ET...
The power grid is a complex network interconnecting energy sources with loads. The power flow and s...
Future power networks are expected to incorporate a large number of distributed energy resources, wh...
Developing a suitable framework for real-time optimal power flow (RT-OPF) is of utmost importance fo...
This letter proposes a superior GPU-accelerated algorithm for probabilistic power flow (PPF) based o...
Optimal power flow OPF plays an important role in power system operation. The emerging smart grid ai...
There has been a strong increase of penetration of renewable energies into power systems. However, t...
The present study merges the teaching and learning algorithm (TLBO) and turbulent flow of water opti...
With the development of advanced power system controls, the industrial and research community is bec...
The smart grid leverages a variety of advanced technologies, including smart metering, smart equipme...
The security and economy of power system operation or planning are threatened by various uncertain f...
Developing a suitable framework for real-time optimal power flow (RT-OPF) is of utmost importance fo...
Real-time contingency analysis (RTCA) is paramount for modern power systems as it forms the basis fo...
In this paper, a modified Rao-2 (MRao-2) algorithm is proposed to solve the problem of optimal power...
Today's electricity grid is rapidly evolving, with increased penetration of renewable energy sources...
Abstract This paper uses enhanced turbulent flow in water-based optimization (TFWO), specifically ET...