Latest Articles for Engineering

Exploring the performance of silicon sensors in radiation environments.

Learn how deep backward dynamic programming addresses nonlinear partial differential equations.

A new framework improves energy capture in airborne wind energy systems with flexible tethers.

Research reveals strong solutions for heat and magnetic fields in fluids.

A look into periodic solutions and their stability in dynamical systems using Chebyshev polynomials.

A new technique enhances bonding in soft robotics, addressing material challenges.

New technology enhances control of underwater robots for improved performance.

A new framework improves safety in self-driving cars through formal methods.

The NING Humanoid showcases agility and smart control in robotics.

A look at how Ideal Flow Networks simplify and optimize various systems.

CrPS shows promise for advancements in spintronics and optoelectronics.

This article presents methods to stabilize parabolic equations with control systems against disturbances.

Explore the conditions for existence and uniqueness of stochastic transport equations.

Examining disorder's impact on mechanical quasicrystals and their unique topological properties.

An overview of limit cycles in dynamic systems and their implications.

Examining how atomic arrangements affect phonons and heat storage in materials.

Exploring advancements in vector tomography for electric field reconstruction.

A look into how individuals in groups influence overall movement.

Exploring how structured materials can behave uniquely under stress.

Investigating the links between different geometric structures for practical applications.

A study on using machine learning for advanced beam analysis.

Learn how decoupling principles simplify complex mathematical shapes.

This article discusses new methods for automating SDV software integration and configuration.

Research shows pipe rotation can significantly lower drag in fluid transport.

Explore how the Feynman-Kac formula aids in studying complex changing systems.

REMIX improves fluid simulations by addressing key issues found in traditional SPH methods.

Learn how to control tiny active particles efficiently and its implications for technology.

New sensor technology improves detection and timing for high-energy particle experiments.

Research confirms dual boundary conditions for the Stokes problem, aiding fluid dynamics.

New MOKE spectrometer enhances study of magnetic and electronic materials.

Efficient methods for simplifying complex mathematical problems using rational approximation techniques.

Examining how embedded parts affect the mechanical properties of disordered networks.

Exploring the interaction of sound and shock waves in nonlinear transmission systems.

A novel approach to model wave response in elastic-plastic metamaterials.

Exploring wave fronts' properties in mathematics and their significance in various fields.

This study reveals how E. coli adapts its movement in various spaces.

A new approach to topology optimization using machine learning enhances design efficiency.

Investigating how disorder affects the relaxation process in various systems.

A look at high-order numerical methods for fluid dynamics.

New techniques improve fluid flow understanding in engineering and nature.