Latest Articles for Engineering

A new method predicts solenoid position and temperature using electrical changes.

Discover the complex behavior of wakes created by moving cylinders.

Discover how fluids behave when pushed through sieve-like barriers in pipes.

An insight into the design and importance of ESCs in chip production.

Learn how electric charges help spacecraft coordinate in formation.

Exploring non-saddle sets and their significance in understanding mathematical flow.

New sensors utilize cold atoms to measure rotation with high accuracy.

Innovative techniques enhance control over challenging systems described by Partial Differential Equations.

This guide walks through a fresh method for solving convection-diffusion-reaction equations.

A look into fluid dynamics methods for effective simulations and real-world applications.

Learn how an algorithm simplifies complex optimization challenges.

A guide on simulating fluid flows and improving engineering designs.

Explore how particles behave at high speeds and their implications.

A look at nonnormal matrices, their properties, and real-world implications.

Introducing a method to solve complex conservation equations efficiently.

I-GILD offers a simpler approach to studying fluid behavior and enhancing models.

Discover how radio antennas detect cosmic rays and neutrinos in scientific studies.

Learn about a unique way to create and analyze surfaces.

A new dataset and framework for easier analog circuit design.

A novel amplifier improves signal clarity in quantum computing, reducing heat and noise.

A look into constrained multi-objective optimization and the new DRMCMO algorithm.

A new method blends numerical techniques with neural networks for solving complex equations.

STEWIE keeps payloads stable during rocket launches, ensuring mission success.

A look at how vibrating strings create sound and change behavior.

NeuralDEM speeds up particle simulation using deep learning for better engineering results.

Explore how fault diagnosis keeps autonomous vehicles safe and efficient.

Explore the principles of nonholonomic systems and their role in movement.

Gold nanotubes reveal surprising properties that could change technology.

A look at how computer methods improve car side sill safety.

Explore the fascinating Leidenfrost effect and how droplets behave on hot surfaces.

Researchers use MUSIC to locate tiny hidden objects in various materials.

Learn about fluid movement due to temperature differences in tiny channels.

A standardized height system aims to unify measurements worldwide.

Learn how past events influence unpredictable systems in engineering.

This study reveals how temperature impacts fluid movement and turbulence.

Learn how spring and mass models reveal material dynamics under stress.

A look into the interplay of randomness, entropy, and energy dynamics.

Researchers develop innovative methods for better predicting fluid behavior.

A look into how heat spreads over time in different shapes.

VINO combines physics and machine learning for efficient PDE solutions.