Latest Articles for Engineering

A new approach to topology optimization using machine learning enhances design efficiency.

Investigating how disorder affects the relaxation process in various systems.

A look at high-order numerical methods for fluid dynamics.

New techniques improve fluid flow understanding in engineering and nature.

This article examines how irregular shapes behave when rolling on an incline.

Exploring window functions to improve signal reconstruction accuracy.

Explore the interaction of different fluids and their real-world applications.

New methods enhance light control in photonic crystals for better technology.

Discover how memetic algorithms improve antenna design efficiency and performance.

Learn how Restricted Function Spaces improve PDE solutions in Firedrake.

New research highlights plasma technology's role in improving propane combustion efficiency.

Studying how engineered shapes form unique liquid crystalline materials.

Exploring how external forces affect the behavior of harmonic oscillators.

Granular grippers adapt to shapes for better object handling in robotics.

New method enhances distance sensors for detecting surface changes.

A look into polynomial optimization and its significance in various fields.

AI and large language models streamline base station siting processes in mobile networks.

New imaging technology reveals how nanoscale materials behave under heat.

Analyzing Proper Orthogonal Decomposition's performance excluding difference quotients.

A method to model dynamic systems with improved efficiency.

A new framework improves predictive modeling by merging varied engineering data sources.

Researching lightweight mirror designs for nanosatellites using additive manufacturing techniques.

This research reveals how carbon influences ordering in iron-carbon alloys.

Research reveals insights into how hedgehog defects affect glass behavior under stress.

Learn how Riemannian splines connect points smoothly on curved surfaces.

This paper examines machine learning techniques for feedback control in complex systems.

A new method using neural networks improves modeling of complex electromagnetic fields.

Exploring symmetry and uniqueness of positive solutions in quasi-linear elliptic equations.

Strategies for optimal control in uncertain dynamic systems.

Exploring the links between biological relationships and electrical circuits.

A look at how fractional maps help analyze complex systems influenced by memory.

Explore the dynamics of delay differential equations with unimodal functions and their applications.

New methods simplify solving elliptic equations with improved accuracy and efficiency.

Learn about the structure and uses of de Bruijn arrays in technology.

A new method streamlines the solving of parabolic partial differential equations.

A look into how portable magnetic field generators work and their applications.

Explore how bootstrap current impacts nuclear fusion reactor efficiency and stability.

A study on improving control strategies for systems with time delays.

Learn how time discretization helps us study viscoelastic materials.

Research shows how disorder affects topological phases in mechanical systems.