Latest Articles for Engineering

Researchers develop bipedal robots that learn walking through practice and animal movements.

A novel method for reducing model complexity while maintaining essential features.

New methods improve speed and accuracy in simulating materials.

New techniques enhance parameter identification in complex systems using adaptive methods.

New methods improve accuracy and efficiency in materials with defects.

This article examines how long solutions to nonlinear wave equations last.

Open-source library enables detailed creation and analysis of synthetic fractures.

Research reveals how structure impacts polymer failure and stability.

Surface roughness and thickness impact resonator performance in technology applications.

A new approach to dynamic inverse problems using Ensemble Kalman Inversion.

This study investigates fluid dynamics with free boundaries and surface tension.

Examining how amorphous solids behave under stress through the Eshelby problem.

A new approach enhances Hamiltonian system modeling despite noisy data.

Learn how optimal transport enhances data movement and analysis in various fields.

Explore the significance of edge-weighted graphs in various fields.

New method improves wavefront sensing in telescopes.

A look into the intricacies of symplectic Clifford analysis, its methods, and applications.

New control methods enhance UAV Bicopter performance for various applications.

Combining deep learning with physics for better predictions.

This article explores stochastic differential equations and their applications in managing uncertainty.

A new method improves decision-making under uncertainty using probability measures.

A study on measuring metal strength using advanced techniques.

Study reveals complex behavior of chiral structures in confined liquid crystals.

A look into unique geometric structures formed from Riemannian manifolds.

Explore how quantum torque affects non-reciprocal materials in varying thermal states.

Investigating how drops in turbulent flows affect heat transfer efficiency.

An overview of how layered materials are created and their importance.

CURE improves robot performance by optimizing configuration settings efficiently.

A new approach to enhance numerical integration accuracy with fewer evaluations.

Exploring how grain size influences the mechanical properties of polycrystalline diamonds.

A look into infinite-state MDPs and their role in reinforcement learning.

Research focuses on improving control strategies for nonlinear systems using data.

NITO offers a faster, adaptable method for optimizing material distribution in engineering designs.

Examining tether entanglement challenges and new solutions for tethered robots.

Exploring active matter and its role in movement and energy interactions.

Exploring the role of inverse problems in mathematics and their practical applications.

A novel method predicts behavior of control-affine nonlinear systems effectively.

This piece explores non-Hermitian systems and the relationship between PT symmetry and phase transitions.

Exploring how bidirectional dispersive equations reveal intricate wave behaviors.

Explore how DFPT advances the study of phonons in materials.