Latest Articles for Computer Simulations

A new simulation system improves agent interactions by mimicking real-life limitations.

Exploring lattice gauge theories in theoretical physics and their significance.

A new method enhances the optimization of complex simulations by reducing uncertainty.

New methods improve the accuracy of neuron models for better brain research.

BSS method improves fluid flow simulations by accurately capturing shocks and turbulence.

Comparing molecular clouds reveals key insights into star formation.

Exploring how edge weights influence selection in population dynamics.

This article examines the behavior of jets produced by binary stars.

HELLO project uncovers key patterns in galaxy formation and development in the early universe.

New algorithms enhance the shifted POD method for better fluid dynamics modeling.

New tools improve study of point defects in materials for better technology.

Radiation plays a crucial role in how stars are formed in space.

Exploring the significance and properties of water in chemical processes.

ExoCubed simulates planetary atmospheres using a cubed-sphere format for better accuracy.

This study examines how noise impacts the movement of elongated particles in fluids.

New integrator enhances particle dynamics simulation for thermal transfer equations.

New computational techniques improve gas behavior predictions in aerospace applications.

Researchers use CARPoolGP to better model and study cosmic structures.

Introducing a straightforward method to determine fluid-crystal coexistence in simulations.

Researchers use advanced models to study how galaxies evolve over time.

Researchers develop methods to improve black hole simulation accuracy.

This study examines muscle models to improve injury analysis during car crashes and sports.

A new method enhances atmospheric modeling efficiency and accuracy using mixed finite element methods.

This article discusses using deep learning to predict airflow over airplane wings.

Introducing an innovative method for accurate magnetohydrodynamics simulations.

This study focuses on how initial setups affect turbulent mixing in fluids.

MiMiC enables complex simulations of molecular interactions at multiple scales for better insights.

A new method improves modeling for active metamaterials with pneumatic actuation.

Study the movements of fluids influenced by temperature differences in vertical settings.

Exploring how machine learning enhances turbulence modeling for better predictions.

This article examines methods to estimate statistical error in particle tracing simulations.

Examining how gas in smaller galaxies affects signals in the universe.

Analyzing eigenvalues and eigenvectors of complex order-three random tensors.

This project uses simulations to analyze the interactions of the LMC and SMC.

New findings challenge the assumption of spherical dark matter halos in galaxy clustering studies.

A new method improves accuracy in astronomical simulations of radiation interacting with gases.

New model integrates thermal and mechanical effects in stereolithography.

A methodical approach to minimize uncertainties in aircraft design through simulations and experiments.

New method simulates how tungsten pillars react to compression, aiding material design.

A look at advanced methods for creating effective adaptive mirrors in telescopes.