PLoS Computational Biology (Dec 2020)

Reconciling emergences: An information-theoretic approach to identify causal emergence in multivariate data.

  • Fernando E Rosas,
  • Pedro A M Mediano,
  • Henrik J Jensen,
  • Anil K Seth,
  • Adam B Barrett,
  • Robin L Carhart-Harris,
  • Daniel Bor

DOI
https://doi.org/10.1371/journal.pcbi.1008289
Journal volume & issue
Vol. 16, no. 12
p. e1008289

Abstract

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The broad concept of emergence is instrumental in various of the most challenging open scientific questions-yet, few quantitative theories of what constitutes emergent phenomena have been proposed. This article introduces a formal theory of causal emergence in multivariate systems, which studies the relationship between the dynamics of parts of a system and macroscopic features of interest. Our theory provides a quantitative definition of downward causation, and introduces a complementary modality of emergent behaviour-which we refer to as causal decoupling. Moreover, the theory allows practical criteria that can be efficiently calculated in large systems, making our framework applicable in a range of scenarios of practical interest. We illustrate our findings in a number of case studies, including Conway's Game of Life, Reynolds' flocking model, and neural activity as measured by electrocorticography.