Latest Articles for Engineering

New integrator enhances particle dynamics simulation for thermal transfer equations.

Phosphorene nanoribbons show promise in electronic applications due to unique properties.

A new numerical algorithm improves solutions for Laplace eigenvalue problems in circular sectors.

Learn essential concepts for controlling and stabilizing waves in various fields.

Research reveals insights into granular materials and their behavior when stressed.

This article examines how initial stress affects material behavior and energy storage.

Researchers enhance wave absorption using nonlinear characteristics for various applications.

A look at how the IPDG method aids in solving eigenvalue problems in materials.

Research reveals how nonlinear behaviors can protect topological properties in various systems.

Learn about affine homogeneous models and their significance in various fields.

New method improves robots' ability to grasp objects effectively and securely.

A method for creating adaptable controllers for different robot designs.

New insights into graph rigidity enhance our understanding of structures in higher-dimensional spaces.

New methods improve the performance of diffraction gratings for better light analysis.

Exploring the dynamics and applications of self-aligning active systems.

This article examines the recent research on bi-rotational Euler flows in four dimensions.

New techniques enhance fluid flow simulations for engineers and scientists.

A novel approach using Neural Processes for real-time equipment performance predictions.

Exploring how liquid drops behave when they hit surfaces.

A new method improves solving complex equations in multiple dimensions.

A look into fluid interactions using the Navier-Stokes-Cahn-Hilliard system.

Examining how spike timing impacts brain function and technology design.

Exploring how stress and viscosity affect waves in fluids and solids.

Investigating the impact of noise on phase dynamics using the Allen-Cahn model.

Exploring the stability of quadratic energies and their implications in various fields.

Analyzing how water behaves when a dam suddenly collapses.

Researchers develop a fast, non-destructive method for measuring fiber properties.

New technique measures atomic arrangement in thin films using standard lab x-ray sources.

Neural Slicer improves multi-axis 3D printing with curved layers for stronger designs.

A novel approach improves fluid flow analysis without traditional grid constraints.

A look into the Pólya-Tchebotarev problem and its significance across various fields.

A look into how graphs represent relationships and their real-world applications.

A clear look at how shapes change and adapt in various contexts.

A new approach enhances solving complex flow issues with finite cell methods.

A new approach improves the efficiency of estimating stabilization parameters in engineering.

A new method addresses the challenge of high-dimensional equations in physics and engineering.

Introducing a flexible memory framework to optimize deep neural network accelerators.

A new framework improves gradient calculations for interconnected optimization problems.

A new method improves efficiency in handling complex optimization challenges.

In-context QD leverages past successes to create diverse solutions.