An Information Theory Approach to Network Evolution Models

01/20/2022

∙

A novel Markovian network evolution model is introduced and analysed by means of information theory. It will be proved that the model, called Network Evolution Chain, is a stationary and ergodic stochastic process. Therefore, the Asymptotic Equipartition Property can be applied to it. The model's entropy rate and typical sequences are also explored. Extracting particular information from the network and methods to simulate network evolution in the continuous time domain are discussed. Additionally, the Erdos-Renyi Network Evolution Chain is introduced as a subset of our model with the additional property of its stationary distribution matching the Erdos-Renyi random graph model. The stationary distributions of nodes and graphs are calculated for this subset alongside its entropy rate. The simulation results at the end of the paper back up the proved theorems and calculated values.

READ FULL TEXT

An Information Theory Approach to Network Evolution Models

Entropy Rate of Time-Varying Wireless Networks

Quantum and Classical Information Theory with Disentropy

From Sharma-Mittal to von-Neumann Entropy of a Graph

A Notion of Entropy for Stochastic Processes on Marked Rooted Graphs

On the entropy of rectifiable and stratified measures

Eléments pour une théorie des réseaux en phase d'apprentissage

Modeling Information Flow with a Multi-Stage Queuing Mode

An Information Theory Approach to Network Evolution Models

Related Research

Entropy Rate of Time-Varying Wireless Networks

Quantum and Classical Information Theory with Disentropy

From Sharma-Mittal to von-Neumann Entropy of a Graph

A Notion of Entropy for Stochastic Processes on Marked Rooted Graphs

On the entropy of rectifiable and stratified measures

Eléments pour une théorie des réseaux en phase d'apprentissage

Modeling Information Flow with a Multi-Stage Queuing Mode