Latest Articles for Engineering

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.

Learn how Matern-type random fields improve design reliability and performance.

Explore controllability in nonlinear systems with periodic drifts and its applications.

Exploring quantum algorithms to tackle nonlinear systems efficiently.

A look into differential complexes and their applications in science and math.

A look into discrete Lagrangians and their significance in mathematical equations.

A new method combines neural networks and gradient-free optimization for efficient design.

Study of reconstructing unknown terms in PDEs from noisy data using regularization methods.

Learn how optimization decomposition simplifies complex problem-solving in various fields.

Learn about how cracks form steps in materials under stress.

Investigating the efficiency and challenges of multi-robot teams in various tasks.

A look at advanced methods for controlling bilinear systems in robotics and quantum control.

A new method enhances machine learning models for transport phenomena predictions.

Explore foams in mathematics and their role in shapes and relationships.

Learn how random sketching improves our approach to inverse problems in data analysis.

Study the movements of fluids influenced by temperature differences in vertical settings.

Learn how the Heavy Ball method enhances optimization techniques.

Examining how object shapes affect heat flow efficiency.

Discover NEON, a method improving uncertainty quantification in machine learning.

A new approach enhances functional regression techniques for complex data analysis.

Explore the evolving methods in optimization, focusing on Consensus-Based Optimization.

A new method enhances predictions for heat transfer in materials using mixed modeling techniques.

Exploring complex behaviors in slow-fast and ghost cycle systems.

This study examines phase transitions using the Cahn-Hilliard problem in unique geometries.

Learn how Python aids in minimizing energy in complex systems.

Analyzing how three-dimensional shapes influence connections in biological and physical networks.

Research reveals how MoS2 alters silicon's behavior under heat and stress.

Exploring quantum algorithms for solving linear systems with low-rank tensors.

A new calibration strategy improves modeling of salt rock for hydrogen storage.