Latest Articles for Engineering

New methods improve analysis and visualization of scientific data through better flow estimation.

A look at random processes and their applications in various fields.

A new method enhances obstacle avoidance for flexible robots in complex environments.

Exploring unipotent matrices and commutators' roles in matrix transformations.

Methods and challenges in addressing polynomial equations across various fields.

A new method enhances the accuracy of predictions from neural networks.

A new approach improves thermal conductivity predictions in dusty plasma systems.

A new algorithm enhances accuracy and efficiency in time integration for structural analysis.

A deep dive into vortex maps and measuring complex areas accurately.

VCO ADCs enhance signal conversion performance with innovative design techniques.

A systematic approach to calculating integrals on complex curved surfaces.

A look at new methods for simplifying complex system simulations.

A new approach to understanding behavior in complicated systems using deformed statistics.

A study on elliptic quasivariational inequalities and their applications in contact mechanics.

This article discusses the significance of DDEs and FDEs in modeling dynamic systems.

A novel approach for estimating material durability under stress with unknown pore distributions.

Investigating how materials deform gradually under stress over time.

This study examines how glass fails under repeated stress and its predictive signs.

Recent studies reveal capillary wave behavior in miscible fluids, challenging traditional fluid dynamics models.

New methods lead to tiny machines with great potential.

Examining conditions for controlled solutions in stochastic heat equations.

Study reveals how light patterns can direct tiny particles' movement in fluids.

Two new datasets enhance research on drilling operations and safety.

Exploring the behavior of zeros in random trigonometric polynomials with dependent coefficients.

A look into how materials respond to stress and the role of randomness.

Combining CPUs and GPUs enhances computation speed and reduces energy use.

A new method improves control for legged robots with arms.

A look at the Cutting Spheres method in optimization problems.

A new platform optimizes fluid-structure interaction through deep reinforcement learning techniques.

New methods improve modeling of frictional contact in engineering and physics.

Control systems adjust behaviors in various fields, addressing uncertainties and optimizing performance.

A study on the drawing and properties of abstract topological graphs.

Learn how the filtered Lanczos procedure enhances eigenvalue calculations using GPUs.

A method for building knowledge graphs to support better choices in technology.

This article discusses predicting diffusion coefficients using entropy scaling and different theoretical models.

Learn how hierarchical control systems enhance automation efficiency and performance.

A method combines machine learning and traditional techniques to model wave behavior.

GenCFD uses AI to improve fluid flow computation, enhancing speed and accuracy.

A new dataset improves simulations for fluid dynamics using machine learning.

A look at quotient iteration for faster eigenvalue problem solving.