Minimal Specialization: The Coevolution of Network Structure and Dynamics

King, Annika

29 May 2024

The changing topology of a network is driven by the need to maintain or optimize network function. As this function is often related to moving quantities such as traffic, information, etc., efficiently through the network, the structure of the network and the dynamics on the network directly depend on the other. To model this interplay of network structure and dynamics we use the dynamics on the network, or the dynamical processes the network models, to influence the dynamics of the network structure, i.e., to determine where and when to modify the network structure. We model the dynamics on the network using Jackson network dynamics and the dynamics of the network structure using minimal specialization, a variant of the more general network growth model known as specialization. The resulting model, which we refer to as the integrated specialization model, coevolves both the structure and the dynamics of the network. We show this model produces networks with real-world properties, such as right-skewed degree distributions, sparsity, the small-world property, and non-trivial equitable partitions. Additionally, when compared to other growth models, the integrated specialization model creates networks with small diameter, minimizing distances across the network. Along with producing these structural features, this model also sequentially removes the network's largest bottlenecks. The result are networks that have both dynamic and structural features that allow quantities to more efficiently move through the network.

complex networks

network growth models

specialization

equitable partitions

bottlenecks

Physical Sciences and Mathematics

Analyzing and Modeling Large Biological Networks: Inferring Signal Transduction Pathways

Bebek, Gurkan

January 2007

No description available.

Computational Biology

Data Mining

Protein Protein Interaction Networks

Evolution

Network Growth Models

Power-law Graphs

Signaling Pathways

Signal Transduction Pathways