Greedy Relaxations of the Sparsest Permutation Algorithm
About
There has been an increasing interest in methods that exploit permutation reasoning to search for directed acyclic causal models, including the "Ordering Search" of Teyssier and Kohler and GSP of Solus, Wang and Uhler. We extend the methods of the latter by a permutation-based operation, tuck, and develop a class of algorithms, namely GRaSP, that are efficient and pointwise consistent under increasingly weaker assumptions than faithfulness. The most relaxed form of GRaSP outperforms many state-of-the-art causal search algorithms in simulation, allowing efficient and accurate search even for dense graphs and graphs with more than 100 variables.
Wai-Yin Lam, Bryan Andrews, Joseph Ramsey• 2022
Related benchmarks
| Task | Dataset | Result | Rank | |
|---|---|---|---|---|
| Causal Discovery | Supermarket linear synthetic | Dtop4.21 | 17 | |
| Causal Discovery | Cancer linear synthetic | Dtop0.00e+0 | 17 | |
| Causal Discovery | Covid linear synthetic 3 | Dtop1.17 | 17 | |
| Causal Discovery | Sachs linear synthetic | Dtop8.42 | 17 | |
| Causal Discovery | Covid linear synthetic 1 | Dtop17 | 17 | |
| Causal Discovery | Climate linear synthetic | Dtop0.83 | 17 | |
| Causal Discovery | Covid linear synthetic 4 | Dtop1 | 17 | |
| Causal Discovery | Genetic linear synthetic | Dtop0.25 | 17 | |
| Causal Discovery | Covid linear synthetic 2 | Dtop0.5 | 17 | |
| Causal Discovery | Neighbor linear synthetic | Dtop1.21 | 17 |
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