Latest Articles for Engineering

This study focuses on stabilizing fluid waves using time-delayed feedback control.

A look at discrete calculus and its applications in understanding complex shapes.

New strategies improve the design and functionality of metamaterials.

Learn how adjusting turbine controls can improve wind energy efficiency.

Exploring direct and inverse scattering problems with penetrable rough surfaces.

An overview of how waves interact with obstacles in various fields.

A look into the history and properties of glass and solids.

A study of power series solutions and their applications across various fields.

Study highlights how electric fields affect dipolar colloids and their clustering behavior.

A new method enhances training efficiency for complex equations using variable scaling.

New methods enhance solutions for the Helmholtz problem in engineering and mathematics.

A new framework enhances predictive modeling by integrating sensor and simulation data.

A new method improves the search for mathematical expressions from data.

A new method for stable factorization of nonsingular matrix functions using ExactMPF.

Exploring the need for fault-tolerance in quantum computers.

This method improves data selection in Bayesian optimization, enhancing efficiency and outcomes.

A study of unique surfaces shaped like caps in complex geometric spaces.

Exploring how droplets behave when hitting a liquid surface.

Combining classical and quantum computing to improve fluid dynamics simulations.

This article explores new methods for simulating fluid flows with GPU technology.

This article explores predicting dynamic behaviors using machine learning and deep learning.

Researchers investigate how tiny materials handle friction and contamination.

This article examines how toroidal shapes influence magnetic fields in fusion reactors.

This article discusses shape optimization to enhance ionic concentration in electrochemical systems.

A guide to Wiener-Hopf indices and their role in mathematics.

This article presents a method to better control complex physical systems.

A new method uses deep learning for improved monitoring of structures.

RSHPN framework enhances reliability and safety in robotic systems through better analysis.

Exploring the role of shape optimization in nonlocal models for better interface identification.

This article explores the behaviors of filaments influenced by external forces.

Tracking movement through videos simplifies the study of complex systems.

Acoustic levitation lifts objects using sound waves, with key applications in science.

Researchers develop OTI to ensure stable optical paths for gravitational wave detection.

This article reviews numerical methods for elliptic PDEs, focusing on collocation and neural networks.

A fresh mathematical framework for systems with varying dimensions.

Telecom language models improve communication and efficiency in the industry.

Researchers tackle Stokes' paradox by studying flow around cylinders and applying new models.

This research explores how radar technology enhances legged robots' location data.

This article discusses applying Steiner symmetrization to spherical shapes to enhance their properties.

A method to enhance model accuracy by accounting for uncertainty in variables.