Novel Ordering-based Approaches for Causal Structure Learning in the Presence of Unobserved Variables
Mokhtarian, Ehsan, Khorasani, Mohammadsadegh, Etesami, Jalal, Kiyavash, Negar
–arXiv.org Artificial Intelligence
We propose ordering-based approaches for learning the maximal ancestral graph (MAG) of a structural equation model (SEM) up to its Markov equivalence class (MEC) in the presence of unobserved variables. Existing ordering-based methods in the literature recover a graph through learning a causal order (c-order). We advocate for a novel order called removable order (r-order) as they are advantageous over c-orders for structure learning. This is because r-orders are the minimizers of an appropriately defined optimization problem that could be either solved exactly (using a reinforcement learning approach) or approximately (using a hill-climbing search). Moreover, the r-orders (unlike c-orders) are invariant among all the graphs in a MEC and include c-orders as a subset. Given that set of r-orders is often significantly larger than the set of c-orders, it is easier for the optimization problem to find an r-order instead of a c-order. We evaluate the performance and the scalability of our proposed approaches on both real-world and randomly generated networks.
arXiv.org Artificial Intelligence
Aug-14-2022
- Country:
- Asia (0.04)
- Europe
- United Kingdom > England
- Cambridgeshire > Cambridge (0.04)
- Switzerland > Vaud
- Lausanne (0.04)
- Netherlands > South Holland
- Dordrecht (0.04)
- United Kingdom > England
- Genre:
- Research Report (1.00)