Latest Articles for Network Theory

A look at how fixed networks form connections and their degree distributions.

A look into the relationships and characteristics of circular-arc and chordal graphs.

An overview of power graphs, their orientations, and implications in group theory.

Exploring the relationship between chromatic number and minimum degree in graphs.

Explore how directed acyclic graphs reveal relationships in complex networks.

Introducing a flexible method for simplifying network connections without fixed parameters.

A study of how opinions change over time in social groups.

Explore bistable elements and their impact on memory and computation.

Exploring the structure and behavior of automata networks in various fields.

Learn how to locate signal sources within complex networks.

A study of point connections and unique weights in geometric trees.

Explore how networks evolve using duplication-divergence models and divergence asymmetry.

Investigating the existence and features of strongly regular graphs.

Research explores how biases shape opinions in social networks.

Hypergraphs and diffusion wavelets offer deeper insights into complex data interactions.

Examining the role of random matrices in various fields through eigenvalue analysis.

Explore the relationships between digraphs, multipaths, and matroids.

A simple guide to graphs, nodes, edges, and distances in real life.

Exploring the significance of full network nonlocality in quantum systems.

Research reveals connections between information theory and random processes in discrete groups.

An overview of relaxed Gromov-Wasserstein distances and their applications.

Explore the dynamics of random graphs and their surprising connections.

Discover the unique balance between order and randomness in hyperuniform networks.

A new approach to enhance scores in player connection scenarios.

Improving analysis of complex networks through innovative matrix representation techniques.

Learn how graphs can be aligned using Degree Matrix Comparison techniques.

A guide to maintaining important links in a family tree despite missing members.

Explore how network structures influence the spread of ideas and diseases.

Explore the significance of polydiagonal subspaces in various fields.

A look into graph generation and its significance in connecting the world.

Discover how rules affect connections in graphs and reveal intriguing patterns.

New methods boost outlier detection in evolving networks.

Explore how connections in adaptive networks shape synchronization and dynamics.

Learn how to efficiently update Katz centrality scores in changing networks.

Explore how temporal cliques reveal dynamic group interactions over time.

A study of hypergraphs offers new ways to measure complex relationships.

Learn how multiple access channels improve communication in noisy environments.

Dive into the world of networks and uncover hidden relationships.

Discover the dynamics of random graphs and the Karp-Sipser algorithm.

Learn how unsplittable multiflows efficiently route demands in networks.