Latest Articles for Mathematical Modeling

Innovative methods simplify analysis of polymer-solvent phase behavior.

Study reveals insights into the stability properties of the Taylor-Green vortex.

Exploring quantum methods for efficient computation of stationary distributions in Markov processes.

Discover how random hyperbolic graphs represent real-world networks effectively.

Exploring the complexities of turbulent flow close to surfaces.

Explore how chaos theory informs our understanding of biological systems through Andrzej Lasota's work.

A look into determining safe movement areas for autonomous systems with unknown behaviors.

A study using mathematical modeling to combat malaria in northern Nigeria.

Explore how partition functions shape our view of particle systems at high temperatures.

Exploring how patterns like stripes and spots form in living organisms.

A study on how agents make decisions in competitive environments using mean-field games.

This study examines the relationship between scalar responses and functional covariates using advanced statistical methods.

Study reveals how groups of neurons interact in unique configurations.

Exploring the dynamics of particles within accelerator systems for improved performance.

A fresh approach analyzes perturbations in relativistic stars for clearer stability insights.

A new model explains network hierarchies using fitness and preferential attachment.

An overview of strategies and objectives in two-player stochastic games.

Examining how different waves interact with Burgers bores in fluid dynamics.

Research shows how math can improve predictions for multiple myeloma treatment outcomes.

A look at Ginzburg-Landau dynamics and their application in various fields.

A new numerical approach to solve the fractional KdV equation effectively.

Understanding tumor growth through mathematical models aids in cancer treatment.

Introducing a precise method for third derivatives to improve wave equation analysis.

An exploration of tipping points and their impact on complex systems.

Examining how stochastic models help in predicting infectious disease spread.

A mathematical model improves the study of waves over swirling fluid flows.

This study focuses on refining models to simulate neuronal growth using Bayesian methods.

A look at how random movements impact connectivity in systems.

Exploring stability and control in systems with finite switches.

A look into how learning algorithms act in competitive two-player games.

Using advanced models to predict mosquito populations more accurately.

This paper analyzes multi-index models and their role in learning from data.

A look into advanced techniques for better data assimilation and filtering.

Exploring the stability of Stokes waves and the role of modulation instability.

A study on vortex configurations and particle dynamics in the Abelian Higgs model.

Learn how to apply transparent boundary conditions in solving the Schrödinger equation numerically.

A look at how string machines help process information in simpler ways.

Explore how to measure bandwidth in meager timed automata models.

Innovative methods for managing the movement of small satellites in formation.

A mathematical model examines interactions between coral reefs and harmful macroalgae.