Latest Articles for Dynamics

New coarse-graining methods improve simulations of complex systems while cutting computational costs.

Study reveals dynamics of crack front waves in three-dimensional materials.

Exploring the significance of protein folding in health and disease.

A new control system improves safety for autonomous boats in narrow waterways.

Research on dual symplectic circuits reveals key insights into classical dynamics.

A new method simplifies local edits in dynamic video content.

A fresh perspective on neural networks focusing on simplicity and function realization.

Study reveals behavior of star clusters and black hole formation over time.

Learn how hypergraphs help in understanding complex systems and interactions.

A novel method combines machine learning with classical mechanics to analyze physical systems.

Explore how different flow patterns influence red blood cell dynamics.

Examining how a flexible sheet alters fluid flow in a closed chamber.

A method to simplify complex interactions of celestial bodies through energy surface compactification.

Examining control methods in networks of quantum systems with a focus on symmetry.

Explore the unique properties and applications of Cantor sets in mathematics.

A look into how linked twist maps show ergodic behavior and shear parameters.

Exploring the interactions and behaviors in layered cellular automata systems.

A study on evolving rankings based on performance over time.

This article explores particle motion in nonharmonic potentials and the role of decoherence.

Exploring how tiny particles influence larger systems through quantum jamming.

Research reveals congestion dynamics using Seoul's traffic data.

This study presents a field theory for understanding antiferromagnetic materials.

A look into the role of zeros in linear systems and their implications.

A look at improving inverter modeling for renewable energy systems.

A new method stabilizes wave equations affected by time delays in control systems.

A model revealing how animals and cells behave collectively.

This article discusses the dynamics of polynomial vector fields and their real-world applications.

New modeling techniques improve predictions in complex dynamical systems.

This article discusses how two particles interact and move under external forces.

A new method improves how machines learn and adapt to novel data.

New modeling tool improves analysis of inverter-based power systems.

New computer models and imaging tools enhance understanding of cell dynamics.

Analyzing energy loss and motion constraints in complex physical systems.

Active matter challenges traditional concepts of interfaces in physics.

Engineers are optimizing robot designs through traditional and geometric modeling methods.

A new numerical scheme improves SIS model accuracy for disease dynamics.

Recent studies reveal the role of small-scale magnetic fields in the Sun's corona.

Exploring how gene networks influence cell fate and implications for diseases.

Research connects discrete and continuous models to study pigment cell patterns in zebrafish.

This study presents an effective approach to analyze nonlinear rods in various applications.