Latest Articles for Engineering

New methods for building quantum circuits improve PDE simulation techniques.

Coded apertures improve depth resolution in microscopy for analyzing tiny samples.

A new approach enhances safety in systems with uncertainties using reachability analysis.

Discover how the truncation method enhances numerical differentiation across various fields.

An overview of Material Point Methods and their applications in studying materials.

An overview of higher Bessel functions and their significance in mathematics.

A look into design optimization in engineering focusing on pressure and contact challenges.

Study on airflow and heat transfer in high-speed compressor systems.

Explores the significance and applications of the stochastic Allen-Cahn equation in materials science.

Exploring non-Hermitian dynamics and their applications in quantum physics.

Combining neural networks and traditional techniques to predict fluid behavior.

This article explores using AI to improve multi-objective optimization processes.

Examining the structure and function of one-dimensional photonic crystals.

Research explores how Fano mirrors enhance ground-state cooling in optomechanical systems.

Introducing Pareto front-Diverse Batch Optimization for better solutions.

Learn how to handle rare risks in mechanical systems for better safety.

Homotopy methods improve shape optimization by connecting complex problems to simpler ones.

LENNs offer a new approach for modeling complex physical systems efficiently.

A new method enhances solutions for high-dimensional optimal control problems in finance and engineering.

Discover how particles behave when moving between different mediums.

A model to forecast stress and crack formation in polycrystalline materials.

Researchers improve gold's conductivity by embedding silver nanoparticles, revealing new electrical behaviors.

Learn how optimal control techniques can improve decision-making in various fields.

A new approach to reconstruct wave behavior using limited measurements.

Revolutionizing the way we solve optimization challenges in multiple fields.

CLAMP enhances image quality in coherent LIDAR, reducing noise and increasing clarity.

Exploring the unique properties and uses of hexagonal materials in technology.

Rank-revealers estimate matrix rank, aiding in data analysis, machine learning, and more.

Examining how elastic waves lose energy based on material frequency.

Introducing a method to manage constraints in control systems effectively.

New slip-wall models improve accuracy and efficiency in simulating turbulent flows.

This article examines differential equations and their solutions on half-lines.

Explore the significance of random matrices in various fields and their eigenvalue behavior.

Research examines how local flow conditions affect turbulence behavior.

Study reveals new wave patterns in materials with changing properties.

A new method improves calculations in optimal control problems.

A method to find hidden cracks using sound waves enhances safety and inspection processes.

A look at how materials respond to stress and the methods to analyze them.

A new method enhances training for neural networks solving partial differential equations.

A look into how heat spreads through non-linear equations and bubble configurations.