Axiomatizing Causal Reasoning

JAIR 2000 pp. 317-337

doi:10.1613/JAIR.648 /jair/2000/halpern2000jair-axiomatizing/

Abstract

Causal models defined in terms of a collection of equations, as defined by Pearl, are axiomatized here. Axiomatizations are provided for three successively more general classes of causal models: (1) the class of recursive theories (those without feedback), (2) the class of theories where the solutions to the equations are unique, (3) arbitrary theories (where the equations may not have solutions and, if they do, they are not necessarily unique). It is shown that to reason about causality in the most general third class, we must extend the language used by Galles and Pearl. In addition, the complexity of the decision procedures is examined for all the languages and classes of models considered.

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Text

Halpern. "Axiomatizing Causal Reasoning." Journal of Artificial Intelligence Research, 2000. doi:10.1613/JAIR.648

Markdown

[Halpern. "Axiomatizing Causal Reasoning." Journal of Artificial Intelligence Research, 2000.](https://mlanthology.org/jair/2000/halpern2000jair-axiomatizing/) doi:10.1613/JAIR.648

BibTeX

@article{halpern2000jair-axiomatizing,
  title     = {{Axiomatizing Causal Reasoning}},
  author    = {Halpern, Joseph Y.},
  journal   = {Journal of Artificial Intelligence Research},
  year      = {2000},
  pages     = {317-337},
  doi       = {10.1613/JAIR.648},
  volume    = {12},
  url       = {https://mlanthology.org/jair/2000/halpern2000jair-axiomatizing/}
}