Sethuraman, M. G., Nabi, R., & Fekri, F. (2024). MissNODAG: Differentiable Cyclic Causal Graph Learning from Incomplete Data. arXiv preprint arXiv:2410.18918.
This paper introduces MissNODAG, a novel framework designed to learn cyclic causal graphs from incomplete data, addressing the limitations of existing methods that struggle with feedback loops and MNAR (Missing Not At Random) data.
MissNODAG leverages an Expectation-Maximization (EM) algorithm to handle missing data. It alternates between imputing missing values and optimizing model parameters, incorporating:
MissNODAG presents a significant advancement in causal discovery by effectively handling both cyclic causal graphs and MNAR missingness, overcoming limitations of existing methods. Its ability to learn from incomplete data while accommodating feedback loops makes it a valuable tool for uncovering causal relationships in complex real-world systems.
This research significantly contributes to the field of causal discovery by providing a robust and flexible framework for learning causal structures from incomplete data, which is a common challenge in many domains. MissNODAG's ability to handle both cyclic relationships and MNAR mechanisms broadens the applicability of causal discovery methods to more realistic scenarios.
Future research directions include incorporating realistic measurement noise models, scaling the framework to larger graphs, allowing for unobserved confounders, and generalizing to broader classes of identifiable MNAR models.
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by Muralikrishn... في arxiv.org 10-25-2024
https://arxiv.org/pdf/2410.18918.pdfاستفسارات أعمق