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Factorial graphical models for dynamic networks

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  • WIT, ERNST
  • ABBRUZZO, ANTONINO

Abstract

Dynamic network models describe many important scientific processes, from cell biology and epidemiology to sociology and finance. Estimating dynamic networks from noisy time series data is a difficult task since the number of components involved in the system is very large. As a result, the number of parameters to be estimated is typically larger than the number of observations. However, a characteristic of many real life networks is that they are sparse. For example, the molecular structure of genes make interactions with other components a highly-structured and, therefore, a sparse process. Until now, the literature has focused on static networks, which lack specific temporal interpretations. We propose a flexible collection of ANOVA-like dynamic network models, where the user can select specific time dynamics, known presence or absence of links, and a particular autoregressive structure. We use undirected graphical models with block equality constraints on the parameters. This reduces the number of parameters, increases the accuracy of the estimates and makes interpretation of the results more relevant. We illustrate the flexibility of the method on both synthetic and real data.

Suggested Citation

  • Wit, Ernst & Abbruzzo, Antonino, 2015. "Factorial graphical models for dynamic networks," Network Science, Cambridge University Press, vol. 3(1), pages 37-57, March.
  • Handle: RePEc:cup:netsci:v:3:y:2015:i:01:p:37-57_00
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    Cited by:

    1. Vinciotti Veronica & Augugliaro Luigi & Abbruzzo Antonino & Wit Ernst C., 2016. "Model selection for factorial Gaussian graphical models with an application to dynamic regulatory networks," Statistical Applications in Genetics and Molecular Biology, De Gruyter, vol. 15(3), pages 193-212, June.
    2. Abbruzzo, Antonino & Fasone, Vincenzo & Scuderi, Raffaele, 2016. "Operational and financial performance of Italian airport companies: A dynamic graphical model," Transport Policy, Elsevier, vol. 52(C), pages 231-237.

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