Latest Articles for Engineering

A new method for designing stellarator coils improves efficiency and control.

A new method combines manifold learning with model order reduction for efficiency.

This article explores methods to predict how stressed materials respond to forces.

A look at the Gardner equation's role in wave phenomena across various fields.

Explore how parabolic equations impact physics, engineering, and finance.

A new method enhances the design of phononic materials for sound control.

Discover how hybrid control systems tackle challenges in autonomous technology.

Study reveals compensatory motions impact users of upper limb prosthetics.

New methods for designing hyperuniform materials based on biological cell arrangements.

Improving stability and accuracy in RBF interpolation through innovative parameter selection.

A new method improves fluid flow simulation in porous materials efficiently.

Exploring the behavior and optimization of liquid crystal drops.

Exploring new waveguide designs to reduce energy loss in phononic systems.

This study examines how liquid nano-threads respond to disturbances and thermal movements.

Examining how elements change under 200 to 300 GPa pressure.

A new approach improves accuracy in fluid flow simulations through complex materials.

Embedding indicators in structures can alert to overload situations, enhancing safety.

Research aims to improve models of finger movement for enhanced robotic design.

Integrating uncertainty quantification in DeepONet enhances predictions in complex physical systems.

Analyzing temperature jumps and energy transfer in gases with multiple atoms.

Investigating the iron-magnetite interface reveals insights for material improvements.

Explore advancements in fluid flow simulations using SPH method for cavity flow.

A look at how electromagnetic waves interact with obstacles and their significance.

A lightweight robot design enhances energy efficiency and speed.

Study of rod-like particles reveals important phase behavior under varying conditions.

A new neural network, STAResNet, offers improved solutions for electromagnetic field predictions.

Examining the role of mass diffusion and gravity in Rayleigh-Taylor instability.

Study examines how inverted flags interact with flowing fluids and their energy capture potential.

This study improves active learning using derivatives for better predictions.

MPADA simplifies multi-channel antenna data acquisition for researchers and engineers.

Research reveals new methods to control superconductivity in bilayer graphene.

A new method to improve control systems under uncertainty using Distributionally Robust Control.

A method to enhance how machine learning models handle new data.

Research reveals how design impacts light movement in valley photonic crystals.

An overview of curves, square functions, and their relevance in various fields.

A look into integrable systems and their importance across various fields.

A look into semilinear parabolic problems and their implications in various fields.

Combining differential equations and data-driven models for better understanding of complex systems.

An overview of free boundary problems and their significance in various fields.

A look into reflection-symmetric graphs and their possible flexible arrangements.