Latest Articles for Engineering

An overview of stochastic measures, their properties, and applications in various fields.

A novel method using neural networks to compute eigenvalues in large matrices.

Exploring how KANs improve solutions for optimal control challenges across various fields.

Explore the significance and uses of block structured matrices in math and engineering.

Exploring the issues of generalization in adaptive control systems.

New method combines AI and diffusion models for innovative material designs.

A concise overview of hypersurfaces and their significance in geometry and physics.

A novel approach combines domain decomposition and artificial neural networks for complex problem solving.

Study reveals how impurities impact nucleation in materials.

A look at stochastic processes and their role in managing uncertainty in various fields.

A new model for analyzing random events in various fields.

A look at the properties of shapes on a sphere.

This article discusses how combining methods improves operator learning effectiveness.

New methods improve precision in gravity measurements using atomic techniques.

Introducing a robust method for solving Navier-Stokes equations in fluid dynamics.

A look at elastic properties and thermal conductivity in materials.

New techniques enhance understanding of strain localization in materials under stress.

Examining how fluids and solids interact in everyday scenarios.

Exploring methods for finding exact solutions to complex scientific equations.

This article discusses new methods for solving the inverse medium problem with neural networks.

An overview of the importance and methods for verifying distributed systems.

Researchers use Instantaneous Normal Modes to study complex liquid dynamics.

A look at automating the alignment of optical systems using three methods.

A look into the dynamics of outer symplectic billiards and their geometric implications.

A new approach to optimize shapes and layouts in engineering for enhanced performance.

A look into the study of free-discontinuity problems in materials science.

Explore how adhesion works in soft materials and wet environments.

New lithium niobate device improves light management in communication technology.

This article explains excess entropy and its significance in Yukawa fluids.

Examining the link between piezoelectricity and superconducting qubit performance.

Researchers enhance robot stability for space exploration using advanced control systems.

A new framework streamlines microstructure design using natural language commands.

New methods help robotic arms adapt despite joint failures.

Bayesian neural networks improve predictions by accounting for uncertainty and integrating prior knowledge.

Exploring the creation and potential of magnetic metamaterials using ion implantation.

Researchers enhance quadrotor control using Koopman theory and linear modeling.

Learn how Brinkman fluids behave under different forces in various environments.

A new method enhances robot movement and stability using a two-level control strategy.

Curves play a key role in transportation and safety.

DIAL-MPC offers a new way to control legged robots effectively.