AUTHOR=Adiga Abhijin , Palmer Nicholas , Baek Young Yun , Mortveit Henning , Ravi S. S. 
  
TITLE=Network Models and Simulation Analytics for Multi-scale Dynamics of Biological Invasions
  
JOURNAL=Frontiers in Big Data
  
VOLUME=Volume 5 - 2022
  
YEAR=2022
  
URL=https://www.frontiersin.org/journals/big-data/articles/10.3389/fdata.2022.796897
  
DOI=10.3389/fdata.2022.796897
  
ISSN=2624-909X
  
ABSTRACT=Globalization and climate change facilitate the spread and establishment of invasive species throughout the world via multiple pathways. These spread mechanisms can be effectively represented as diffusion processes on multi-scale spatial networks. With increased availability of data and advances in high performance computing, such network-based modeling and simulation approaches are being increasingly applied in this domain. However, these works tend to be largely domain-specific, lacking any graph theoretic formalism, and do not take advantage of more recent developments in network science. This work is aimed towards filling some of these gaps. The analytical complexity arises more from the multi-scale nature and complex functional components of the networks rather than from the size of the networks. We develop a generic multi-scale spatial network framework that is applicable to a wide range of models developed in the literature on biological invasions. A key question we address is the following: how do individual pathways and their combinations influence the rate and pattern of spread?
                                                                                     
We present theoretical bounds on the spectral radius and diameter of multi-scale networks. These two structural parameters of graphs have established connections to diffusion processes. Further insights are obtained through computational experiments on various synthetic and real-world networks and the application of machine learning techniques for structural and simulation analytics. Specifically, we study how network properties such as spectral radius and diameter are influenced by model parameters. Further, we analyze a multi-pathway diffusion model from the literature by conducting simulations on synthetic and real-world networks. We apply regression tree analysis to identify the important network and diffusion model parameters that influence the dynamics.