Latest Articles for Engineering

A new open-source method speeds up routing tasks for modern FPGAs.

Exploring the role of symmetries in nonlinear systems and their implications.

This article discusses how surface shape influences pattern behavior in various systems.

A robust approach to optimization in noisy data environments.

Insights into the behavior of turbulent fluid dynamics and their implications.

A look into integro-differential equations and their impact on real-world systems.

This article examines how disks move through special fluids impacted by friction.

Research focuses on topological insulators for advanced quantum technology applications.

Spintronic devices may transform computing by offering efficient power use and high speed.

Advancements in quantum techniques promise improved accuracy in localization methods.

This article discusses methods to study water movement in porous materials.

Learn how skyrmions could change the future of electronic devices.

Introducing new strategies for efficient convex optimization problem solving.

Hydrogen influences the electronic structure and properties of vanadium-zirconium metallic glass.

A numerical framework to analyze the behavior of phoretic particles in fluid environments.

A look at how phases interact in various systems using mathematical models.

A new approach to visualize quadratic problems using string diagrams.

A new framework to ensure performance of first-order methods in parametric quadratic optimization.

This article discusses a new control method for stable quadrupedal movement on shifting surfaces.

An overview of Gaussian fields and their significance in studying random processes.

A deep dive into Dirac operators and their role in physics and mathematics.

A look at improving dynamic system models using destination information.

Combining Large Language Models with data to discover scientific equations effectively.

Exploring HDG methods for wave simulation in elastic materials with varying properties.

A method to solve parabolic PDEs more efficiently.

Study reveals how dense gases behave in curved geometries.

Neural FDEs combine neural networks and fractional differential equations for improved modeling of complex systems.

Rheo-SINDy simplifies the process of deriving material behavior equations.

A two-stage training method enhances Neural ODEs for constrained systems.

This article discusses a new GPU-based system for real-time waveform generation.

Exploring new methods for modeling and understanding viscous fluid behavior near boundaries.

Exploring interactions between bubbles and droplets in strongly coupled dusty plasma.

Studying turbulent jets enhances fluid behavior understanding for engineering applications.

Exploring the links between shapes, mass, and geometry.

An in-depth look at caloric functions in fractional heat equations.

SUGAR simplifies geometric algebra for engineers and mathematicians using Matlab.

Auxetic materials offer intriguing properties for various applications across industries.

Researchers use LSTM models to study droplet dynamics and energy distribution.

Learn how to build and refine models of dynamic systems using advanced techniques.

A new method improves data transfer in computer models of complex systems.