Latest Articles for Engineering

BEATLE showcases the potential of self-reconfigurable aerial robots in various fields.

A new wall-model improves turbulent flow predictions with reduced computational costs.

Exploring how synchronized oscillators react to noise and influence system stability.

A look at Riemannian Convex Bundle Method for complex optimization problems.

Discover the importance and applications of complex surfaces in mathematics and physics.

A new benchmark assesses voice recognition systems' performance amidst various disturbances.

Introducing a method that improves optimization results using higher-order approximations.

Recent models improve our understanding of fluid turbulence in natural and industrial systems.

Discover the Stochastic Moving Ball Approximation method for solving complex optimization problems.

A look at using P-ERK methods for efficient fluid dynamics solutions.

Methods to control quantum systems amid uncertainty and noise.

This article discusses a single-piston quantum engine using a harmonic oscillator.

Unitary operators and conjugations are vital in various fields, maintaining key properties.

FLASH offers efficient analysis of material responses to oscillatory shear flow.

New designs for robotic grippers allow for better handling of objects.

A new method improves curve reconstruction from sparse samples on complex surfaces.

Discover how mass lumping and outlier removal enhance isogeometric analysis efficiency.

Combining human insights with Bayesian methods improves engineering optimization outcomes.

A new method improves speed and memory use in solving elliptic PDEs.

BEACON framework enhances the efficiency of safety verification in technology.

Examining water flow patterns over various surface shapes.

Measuring robustness and safety in cyber-physical systems under sensor threats.

Twisting sheets reveals complex patterns and material behavior.

A method to solve complex optimization problems with nonlinear equality constraints.

Exploring how quantum computing enhances scientific research efficiency and accuracy.

This article discusses operator learning and its role in approximating complex models.

Investigating how tiny swimmers behave in flowing liquids.

Introducing an efficient approach to tackle Hamilton-Jacobi-Bellman equations for improved accuracy.

Learn about backbone tracking and its role in understanding structural behavior.

Discovering how data-driven approaches enhance material behavior understanding.

This article explores the impact of solidification conditions on grain growth in Magnesium-based alloys.

Examining how temperature differences affect the movement of liquid drops.

Explore the benefits and challenges of multi-objective optimization using NSGA-III.

Strategies for effective control of multi-robot systems in uncertain environments.

Comparing AMD/Xilinx Versal ACAP and Intel Stratix 10 NX in deep learning tasks.

Improving eigenvalue estimation through new SoftFEM techniques.

Discover how geometric phase influences wave behavior in new elastic materials.

A new mechanical system that adapts to vibrations for energy harvesting and vibration reduction.

This work introduces a new method for estimating diffusion processes using multilevel Monte Carlo techniques.

Analyzing how two surfaces interact through mathematical modeling of adhesion and friction.