Phan‐Tu Vu
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View article: Numerical Simulation of Potential Distribution in Grounding Systems Using the Finite Difference Matrix Operators Approach with Non-Uniform Mesh
Numerical Simulation of Potential Distribution in Grounding Systems Using the Finite Difference Matrix Operators Approach with Non-Uniform Mesh Open
In this paper, we introduce the development of the Finite Difference Matrix Operators (FDMO) algorithm for solving the three-dimensional (3D) electromagnetic problem governed by the Laplace–Poisson equation. Specifically, we propose a nove…
View article: RBF-FDTD Analysis of Lightning-Induced Voltages on Multi-Conductor Distribution Lines
RBF-FDTD Analysis of Lightning-Induced Voltages on Multi-Conductor Distribution Lines Open
Lightning-induced voltages on overhead distribution lines present a formidable obstacle to ensuring the reliability of power systems, evaluated through conventional numerical techniques, such as the Finite Difference Time Domain (FDTD) met…
View article: The RBF-FDTD Method for Computing Lightning-Transient Voltages on Grounding Systems
The RBF-FDTD Method for Computing Lightning-Transient Voltages on Grounding Systems Open
This paper introduces an advanced application of the Radial Basis Function-Finite-Difference Time-Domain (RBF-FDTD) method, as proposed in Vu et al., for computing lightning-induced transient voltages in grounding systems. The approach mod…
View article: Computing Lightning-Induced Voltages on Overhead Distribution Lines Using the RBF-FDTD Approach
Computing Lightning-Induced Voltages on Overhead Distribution Lines Using the RBF-FDTD Approach Open
This paper presents an advanced application of the Radial Basis Function-Finite-Difference Time-Domain (RBF-FDTD) method, as introduced in Vu et al. (2023), to solve the field-to-line coupling equations for simulating lightning-induced vol…
View article: The RBF-FD and RBF-FDTD Methods for Solving Time-Domain Electrical Transient Problems in Power Systems
The RBF-FD and RBF-FDTD Methods for Solving Time-Domain Electrical Transient Problems in Power Systems Open
In this paper, the development and application of the radial basis function-finite difference (RBF-FD) method and the RBF-finite difference time domain (RBF-FDTD) method for solving electrical transient problems in power systems that are d…
View article: Reconfigure the Distribution Network With Photovoltaic Connection to Minimize Energy Loss Based on Average Branch Power and an Advanced Branch Exchange Algorithm
Reconfigure the Distribution Network With Photovoltaic Connection to Minimize Energy Loss Based on Average Branch Power and an Advanced Branch Exchange Algorithm Open
The distribution network reconfiguration (DNR) minimize energy loss is one of the complicated problems and being studied substantially in recent years. Reconfiguration distribution network through the average branch power is a simple and e…
View article: New Second-Order Sliding Mode Control Design for Load Frequency Control of a Power System
New Second-Order Sliding Mode Control Design for Load Frequency Control of a Power System Open
The implementation of the sliding mode control (SMC) for load frequency control of power networks becomes difficult due to the chattering phenomenon of high-frequency switching. This chattering problem in SMC is extremely dangerous for act…