Information Decomposition based on Cooperative Game Theory

Ay, Nihat, Daniel Polani, and Nathaniel Virgo. “Information decomposition based on cooperative game theory.” arXiv preprint arXiv:1910.05979 (2019).
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We offer a new approach to the information decomposition problem in information theory: given a ‘target’ random variable co-distributed with multiple ‘source’ variables, how can we decompose the mutual information into a sum of non-negative terms that quantify the contributions of each random variable, not only individually but also in combination? We derive our composition from cooperative game theory. It can be seen as assigning a “fair share” of the mutual information to each combination of the source variables. Our decomposition is based on a different lattice from the usual ‘partial information decomposition’ (PID) approach, and as a consequence our decomposition has a smaller number of terms: it has analogs of the synergy and unique information terms, but lacks terms corresponding to redundancy. Because of this, it is able to obey equivalents of the axioms known as ‘local positivity’ and ‘identity’, which cannot be simultaneously satisfied by a PID measure.

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