Latest Articles for Biology

Exploring how features in biology evolve over time to predict system behavior.

Research reveals complexities in modeling ectotherm traits based on temperature.

Study of swimming organisms and fluid motion in confined spaces.

Exploring how resetting one variable affects particle behavior in dynamic systems.

A look into how particle interactions shape material properties through defects.

A new algorithm improves accuracy in simulating particle movement in fluids.

A new method simplifies complex multiscale problems using gradient descent.

New training techniques improve imaging of biological structures using SMLM.

A new model explains how cells move toward chemical signals.

Explore the impact of randomness on complex systems through advanced mathematical models.

FAPM improves protein function prediction using multi-modal models and deep learning.

Exploring fractional derivatives and their computational methods for accurate modeling in various fields.

ProtChatGPT enables easier access to protein information through conversational AI.

Exploring how active particle models explain animal interactions and behaviors.

Explore how retinoic acid impacts gill development in axolotls.

A new approach improves solutions for particle movement in fluids with changing boundaries.

Exploring how particles behave over time in constrained environments.

This article presents a model for random trees affected by local changes over time.

Assessing LLM performance through a dedicated benchmark for bio-image analysis.

This article examines how memory affects first passage time for random walkers.

A new method enhances accuracy in predicting protein-ligand interactions.

A look at how dynamical systems work and their applications in various fields.

Explore the growth and applications of random trees in mathematics and nature.

New methods enhance understanding of how cells grow and interact.

A new approach improves multiscale modeling accuracy and efficiency.

Exploring how charged polymers enhance DNA sequencing technologies.

New methods improve simulations of active matter by reducing density fluctuations.

MeshAC creates adaptive 3D meshes for accurate material simulations at multiple scales.

Examining the hurdles in interpreting spatial transcriptomics data.

A novel scheme to simulate jump-driven stochastic processes in various fields.

Research reveals unique gene expression patterns linked to environmental changes.

A new method enhances data splitting for deep learning in biological analysis.

Exploring how geometric analysis can enhance our understanding of cancer.

Exploring the synergy between quantum computing and optimal transport for biological data.

A look into hypergraphs and their roles in various fields.

Examining random walks in branching structures reveals important ecological and computational dynamics.

A new method improves the estimation of memory kernels in particle dynamics.

A new method simplifies lineage tree simulations, enhancing biological research efficiency.

Explore GWSBM and GWPDSM models in community detection.

A look at how information theory measures and processes data.