Active learning of causal probability trees
The past two decades have seen a growing interest in combining causal information, commonly represented using causal graphs, with machine learning models. Probability trees provide a simple yet powerful alternative representation of causal information. They enable both computation of intervention an...
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Zusammenfassung: | The past two decades have seen a growing interest in combining causal
information, commonly represented using causal graphs, with machine learning
models. Probability trees provide a simple yet powerful alternative
representation of causal information. They enable both computation of
intervention and counterfactuals, and are strictly more general, since they
allow context-dependent causal dependencies. Here we present a Bayesian method
for learning probability trees from a combination of interventional and
observational data. The method quantifies the expected information gain from an
intervention, and selects the interventions with the largest gain. We
demonstrate the efficiency of the method on simulated and real data. An
effective method for learning probability trees on a limited interventional
budget will greatly expand their applicability. |
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DOI: | 10.48550/arxiv.2205.08178 |