Latest Articles for Engineering

New methods improve the analysis of aerospace structures for better performance.

Discover how waves interact in materials and create wavenumber bandgaps.

Using machine learning to improve accuracy in numerical model error predictions.

Learn how to create energy systems that handle uncertainties in renewable sources.

An overview of Chebyshev polynomials and their applications.

Neural operators simplify the solving process for complex partial differential equations.

Explore how different phases mix and move in various environments.

A look at how unique light interactions in optical fibers can improve technology.

Combining advanced techniques streamlines analog circuit design for better efficiency.

An exploration of symmetric matrices and their impact on physical systems.

A look into controlling systems with parabolic partial differential equations.

Discover the fascinating behavior of droplets on surfaces and their measurement challenges.

Exploring the blend of machine learning and partial differential equations.

Explore how backdoor attacks threaten hardware design using large language models.

Discover how neural networks enhance the performance of capacitive touch sensors.

Discover how high-order Discontinuous Galerkin methods improve fluid dynamics simulations.

Research focuses on vacuum loss impacts in liquid helium-cooled particle accelerators.

A simple look at flat chains and metric currents in math.

A look into how gradients and measures shape our understanding of math.

Scientists study how sound influences tiny particles for various applications.

Quasi-polygonal shapes enhance superconducting magnet efficiency in particle accelerators.

Learn how crystals withstand pressure and remain intact.

A look into how materials behave under various forces with free boundaries.

A clear look at bilinear fractional integrals and their significance.

New methods make complex optimization problems easier and faster to solve.

Discover how combinatorial metamaterials can change shape and respond to forces.

Automated DRC code generation streamlines circuit design and enhances accuracy.

Innovative techniques improve calculations for landing on irregular celestial bodies.

New method streamlines complex mathematics for faster, simpler calculations.

Streamlining 3D railway model creation using advanced technology and free data.

Scientists improve fluid simulations by blending methods for accurate results.

Discover the unusual properties and applications of quasicrystals in technology.

Using machine learning models to predict fluid movements efficiently.

Discover how microstructures impact engineering through geometric modeling.

Discover how laser plasma accelerators speed up electrons for groundbreaking applications.

A look at fluid dynamics and the Navier-Stokes equations.

Learn how SPMO makes complex math more manageable and practical.

New technology makes real-time 3D scanning faster and clearer.

New method enhances robotic hands' ability to sense object stiffness.

Improvements in Lince make hybrid system simulations simpler and more effective.