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Poster

On the Complexity of Identification in Linear Structural Causal Models

Julian Dörfler · Benito van der Zander · Markus Bläser · Maciej Liskiewicz

West Ballroom A-D #5006
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Fri 13 Dec 4:30 p.m. PST — 7:30 p.m. PST

Abstract: Learning the unknown causal parameters of a linear structural causal model is a fundamental task in causal analysis. The task, known as the problem of identification, asks to estimate the parameters of the model from acombination of assumptions on the graphical structure of the model and observational data, represented as a non-causal covariance matrix.In this paper, we give a new sound and complete algorithm for generic identification which runs in polynomial space. By a standard simulation result, namely $\mathsf{PSPACE} \subseteq \mathsf{EXP}$,this algorithm has exponential running time which vastly improves the state-of-the-art double exponential time method using a Gröbner basis approach. The paper also presents evidence that parameter identification is computationally hard in general. In particular, we prove, that the taskasking whether, for a given feasible correlation matrix, there are exactly one or two or more parameter sets explaining the observed matrix, is hard for $\forall \mathbb{R}$, the co-class of the existential theory of the reals. In particular, this problem is $\mathsf{coNP}$-hard.To our best knowledge, this is the first hardness result for some notion of identifiability.

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