Latest Articles for Engineering

This article examines how quantum mechanics influences heat engines and their efficiency.

New methods aim to enhance vehicle control in connected and automated platoons.

This article explores elliptic equations and their significance in various fields.

A look into Petri nets for modeling complex systems and their behaviors.

FPGAs promise faster methods for many-body computations in physics.

New methods enhance boundary treatment in compressible fluid flow simulations.

Using quantum algorithms to improve laminate design and stacking sequences.

A new method improves fluid dynamics simulations using neural networks.

A new program improves fluid flow calculations using Regent and LSKUM methods.

Examining the movement of solid objects in electrically conducting fluids.

Analyzing the complications of extrapolating completely monotone functions amid noisy data.

A look at methods to improve model predictions and reduce uncertainty.

A new method enhances robotic hands' ability to manage soft objects.

This article examines how geometry influences the behavior of frictional systems.

Examining how oxygen influences titanium's strength and structure.

Innovative techniques to improve optimization performance in the presence of noise.

This article explores methods to improve magnetic fields in toroidal domains for nuclear fusion applications.

A new approach to efficiently solve complex PDEs using machine learning.

A study on optimizing initial pulse shapes for better laser compression.

Polylla offers efficient polygonal mesh generation using GPUs for various applications.

Exploring Golay Complementary Sequences and their significance in engineering and communications.

New methods improve state estimation for complex systems under uncertainty.

Study examines how synthetic jets manage airflow for improved airfoil performance.

Research on droplets reveals how living materials respond to their environments.

Discover how DeepONet improves manufacturing predictions and optimizes processes.

Exploring a new principle for harmonic functions defined on circular domains.

Analyzing the significance of compensated weighted sums in mathematical models of randomness.

Research connects turbulent fluid dynamics to black hole physics, revealing new insights.

A new method improves surrogate modeling accuracy using physical principles.

This article examines how fullerenes improve aluminum-based materials.

Introducing a method that combines kernel-based reconstruction with finite volume techniques for fluid flows.

ALDO2 enhances performance of SiPMs in high-energy physics environments.

Exploring how organisms expel fluids for survival and innovation.

The new Discrete Direct Deconvolution Model enhances turbulence simulation accuracy.

A look at how gradient-enhanced models improve predictive accuracy.

This new model predicts 3D shape behavior faster and more accurately.

New framework aids in simulating complex shapes in physics and engineering.

A new method improves parameter estimation from high-resolution data.

This model improves predictions for partial differential equations using innovative techniques.

GUDR enhances UDR for better accuracy in uncertainty quantification.