Latest Articles for Power Systems

A framework to improve stability in power systems using renewable energy sources.

A novel approach to managing interconnected nonlinear systems for improved stability and performance.

Addressing energy supply challenges with demand-side flexibility.

A new algorithm enhances the analysis of complex switched systems.

Graph neural networks speed up security assessments in power systems.

A new framework enhances the evaluation of energy storage contributions to grid reliability.

Analyzing renewable energy impacts on power grid stability using machine learning techniques.

HVDC technology helps manage electromechanical oscillations in large power grids.

A new method simplifies complex power systems for better analysis.

A new method aims to mitigate load-altering attacks on distribution systems using existing infrastructure.

A new model enhances the analysis of electronic loads in power grids.

New techniques enhance stability assessments in modern power systems.

DBGNNs improve information flow and prediction capabilities in machine learning.

Discover how 48-pulse STATCOM enhances wind energy system reliability.

A look at stability strategies in DC microgrids.

A new method improves power sharing and stability in microgrids using inverter-based resources.

Combining imaging with wireless power transfer can enhance device efficiency.

New methods for better control of electric vehicle charging stations.

New framework improves flexibility assessment for power systems with renewable energy sources.

Research on using Graph Neural Networks for efficient power grid state estimation.

Exploring how switched systems operate and their importance in various applications.

A new method combines traditional techniques with machine learning for better power flow optimization.

New methods improve accuracy and speed in calculating emissions rates in power systems.

Examining the environmental impact of AI-driven power systems.

New methods improve frequency stability in renewable energy power grids.

A new approach to manage uncertainties in renewable energy production.

Unit commitment processes evolve to address uncertainties in renewable energy generation.

Examining how cyber threats affect smart inverters and power stability.

Explore how DC-DC converters ensure stable power in electronic systems.

This method helps manage EV integration into the power grid effectively.

Examining how time delays affect power system dynamics and stability.

New methods help detect cyberattacks in complex power systems.

New energy models address challenges of diverse power sources and storage.

This article outlines methods for detecting and localizing oscillations in power systems.

A look at how noise affects power grid stability and resilience assessments.

A fresh data-driven method for power flow modeling improves efficiency and accuracy.

A new method enhances decentralized load frequency control for electricity systems.

A new method to model inverter dynamics for stable renewable energy integration.

New smooth models improve voltage control in power systems with renewable energy.

Sparse AC FDI attacks can compromise power system stability through minimal measurement changes.