Latest Articles for Engineering

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

Two new methods for efficient solutions in equations and inclusions using variance reduction.

A look at weak solutions and their significance in material behavior.

This study evaluates simulation methods for accurate aircraft lift predictions.

Exploring how small particles behave under chemical signals in various fluids.

A look into how randomness affects material behavior and design.

This research explores innovative methods for managing uncertainty in control systems.

A look at Green's functions, their derivatives, and their role in solving differential equations.

Explore the types and applications of magnetism and ferrites in modern technology.

Explore the impact of isoperimetric inequalities on geometry and probability.

Exploring techniques for improved parametric system modeling in engineering and science.

Research reveals how charged droplets can effectively remove particles from surfaces.

Robots influenced by nature offer new possibilities in adaptability and performance.

This study examines resilience in biological feedback systems under chemical changes.

NGOs utilize neural networks to simplify solving complex partial differential equations efficiently.

Exploring how twisting and electric fields affect t2BN's properties.

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

Quadrupedal robots are learning to walk on two legs, improving versatility.

Discover how machine learning is tackling complex partial differential equations.

A simpler approach to solving linear equations using quantum computers.

An overview of vector fields and their interactions in 2D spaces.

Exploring the relationship between two key mathematical concepts in optimization.

New methods improve predictions in fluid dynamics using machine learning.

Exploring how isotropic tensor fields reveal properties of amorphous solids.

A look into the behaviors of Van der Pol-Duffing oscillators in various systems.

Exploring how light changes the mechanical properties of zinc sulfide.

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

GFN-ROM enhances model order reduction using graph neural networks for efficient simulations.

New methods improve efficiency and accuracy in solving root-finding problems.

A look at new methods improving electronic circuit floorplanning efficiency.

This study presents a method to improve fluid-structure interaction predictions for engineering applications.

Explore how functions behave at boundaries and their real-world applications.

Research confirms the existence of smooth, nonradial stationary flows in fluid dynamics.

A novel approach uses transformers to enhance PDE solving efficiency and flexibility.

Research reveals new insights into elastomeric metamaterials and their deformation modes.

Explore the significance of parabolic equations and the Harnack inequality in mathematics.

Explore the unique properties and applications of auxetic membranes in various fields.

Exploring methods to address fluid-structure interaction problems across various fields.

A novel method using neural networks to solve complex partial differential equations efficiently.

Research reveals how DNA link styles affect curvature and material properties.