Calculation of Entailed Rank Constraints in Partially Non-Linear and Cyclic Models

UAI 2013

/uai/2013/spirtes2013uai-calculation/

Abstract

The Trek Separation Theorem (Sullivant et al. 2010) states necessary and sufficient conditions for a linear directed acyclic graphical model to entail for all possible values of its linear coefficients that the rank of various sub-matrices of the covariance matrix is less than or equal to n, for any given n. In this paper, I extend the Trek Separation Theorem in two ways: I prove that the same necessary and sufficient conditions apply even when the generating model is partially non-linear and contains some cycles. This justifies application of constraint-based causal search algorithms to data generated by a wider class of causal models that may contain non-linear and cyclic relations among the latent variables.

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Cite

Text

Spirtes. "Calculation of Entailed Rank Constraints in Partially Non-Linear and Cyclic Models." Conference on Uncertainty in Artificial Intelligence, 2013.

Markdown

[Spirtes. "Calculation of Entailed Rank Constraints in Partially Non-Linear and Cyclic Models." Conference on Uncertainty in Artificial Intelligence, 2013.](https://mlanthology.org/uai/2013/spirtes2013uai-calculation/)

BibTeX

@inproceedings{spirtes2013uai-calculation,
  title     = {{Calculation of Entailed Rank Constraints in Partially Non-Linear and Cyclic Models}},
  author    = {Spirtes, Peter},
  booktitle = {Conference on Uncertainty in Artificial Intelligence},
  year      = {2013},
  url       = {https://mlanthology.org/uai/2013/spirtes2013uai-calculation/}
}