Latest Articles for Finite Element Method

This article explores the application of finite element methods in four-dimensional analysis.

Exploring equations that explain material properties and their changes.

Quantum computing enhances engineering efficiency, especially in analyzing structures and materials.

This article discusses modern methods for minimizing energy in engineering systems.

Combining JAX and Firedrake enhances numerical methods for solving partial differential equations.

A look into shape optimization processes across various fields.

A study on improving numerical methods for solving fluid flow problems.

Explore improved methods for convection-diffusion problems in science and engineering.

Exploring techniques for solving PDEs on dynamic surfaces.

A look at numerical computation and its applications in various fields.

This study develops new methods for analyzing interactions in mean field games.

Improving atmospheric predictions through innovative modeling techniques.

A new method for solving complex elliptic equations using ghost points.

New approach uses physics-informed neural networks for acoustic scattering simulations.

New methods improve accuracy in convection-dominated models using advanced mesh techniques.

Exploring new techniques in finite element methods for practical applications.

Exploring the impact of mesh quality on soft tissue simulation accuracy.

Learn how Matern-type random fields improve design reliability and performance.

A method that improves approximation of mathematical models using neural networks and finite elements.

Exploring tensor neural networks to improve solutions in complex multiscale scenarios.

Research focuses on improving low-order finite elements for better material simulations.

A look into how materials react under pressure using mathematical approaches.

A new method improves motion estimation using adaptive finite element meshes.

This article discusses techniques in optimal control for dynamic systems described by hyperbolic equations.

A look at methods for managing systems influenced by time, such as heat flow.

A look into tackling bi-Laplace problems using modern numerical techniques.

Advanced methods improve accuracy in fluid flow through porous materials.

This study focuses on structural monitoring in fusion devices under various forces.

New techniques improve precision in modeling multi-fluid flows for various industries.

AMBER leverages machine learning to automate mesh generation for engineering simulations.

A new method simplifies the analysis of thin plates and shells in engineering.

This article discusses methods to stabilize the Burgers equation for better modeling.

A study on using measurements and numerical methods to solve elliptic PDEs.

Examining the dynamics of ferromagnetic materials through advanced modeling techniques.

New methods improve efficiency in modeling contact mechanics challenges.

A look into shape optimization techniques and their real-world applications.

Research improves methods for predicting landslides triggered by seismic waves.

Explore the latest developments in micromagnetics and their impact on technology.

New methods improve understanding of wave behavior in materials for engineering applications.

New techniques improve accuracy in analyzing nearly incompressible materials.