Difference between revisions of "Thesis/Causal Theories: A Categorical Perspective on Bayesian Networks"
Tag: Reverted |
Tag: Manual revert |
||
(One intermediate revision by the same user not shown) | |||
Line 16: | Line 16: | ||
<noinclude> | <noinclude> | ||
{{#Widget: | {{#Widget:PDF | ||
|url=https://arxiv.org/abs/1301.6201.pdf | |url=https://arxiv.org/abs/1301.6201.pdf | ||
|width=960 | |width=960 |
Latest revision as of 11:12, 4 July 2023
Fong, Brendan (2013). Causal Theories: A Categorical Perspective on Bayesian Networks (Master). local page: University of Oxford. Retrieved Jan 26, 2013.
In this dissertation we develop a new formal graphical framework for causal reasoning. Starting with a review of monoidal categories and their associated graphical languages, we then revisit probability theory from a categorical perspective and introduce Bayesian networks, an existing structure for describing causal relationships. Motivated by these, we propose a new algebraic structure, which we term a causal theory. These take the form of a symmetric monoidal category, with the objects representing variables and morphisms ways of deducing information about one variable from another. A major advantage of reasoning with these structures is that the resulting graphical representations of morphisms match well with intuitions for flows of information between these variables. These categories can then be modelled in other categories, providing concrete interpretations for the variables and morphisms. In particular, we shall see that models in the category of measurable spaces and stochastic maps provide a slight generalisation of Bayesian networks, and naturally form a category themselves. We conclude with a discussion of this category, classifying the morphisms and discussing some basic universal constructions.
References
Related Pages
Authored by:Brendan Fong