Towards Effective Causal Partitioning by Edge Cutting of Adjoint Graph.

Abstract

Causal partitioning is an effective approach for causal discovery based on the divide-and-conquer strategy. Up to now, various heuristic methods based on conditional independence (CI) tests have been proposed for causal partitioning. However, most of these methods fail to achieve satisfactory partitioning without violating d-separation, leading to poor inference performance. In this work, we transform causal partitioning into an alternative problem that can be more easily solved. Concretely, we first construct a superstructure G of the true causal graph GT by performing a set of low-order CI tests on the observed data D. Then, we leverage point-line duality to obtain a graph GA adjoint to G. We show that the solution of minimizing edge-cut ratio on GA can lead to a valid causal partitioning with smaller causal-cut ratio on G and without violating d-separation. We design an efficient algorithm to solve this problem. Extensive experiments show that the proposed method can achieve significantly better causal partitioning without violating d-separation than the existing methods. The source code and data are available at https://github.com/hzsiat/CPA.