Using Deep Autoregressive Models as Causal Inference Engines
Existing causal inference (CI) models are limited to primarily handling low-dimensional confounders and singleton actions. We propose an autoregressive (AR) CI framework capable of handling complex confounders and sequential actions common in modern applications. We accomplish this by {\em sequencif...
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| creator | Im, Daniel Jiwoong Zhang, Kevin Verma, Nakul Cho, Kyunghyun |
| description | Existing causal inference (CI) models are limited to primarily handling
low-dimensional confounders and singleton actions. We propose an autoregressive
(AR) CI framework capable of handling complex confounders and sequential
actions common in modern applications. We accomplish this by {\em
sequencification}, transforming data from an underlying causal diagram into a
sequence of tokens. This approach not only enables training with data generated
from any DAG but also extends existing CI capabilities to accommodate
estimating several statistical quantities using a {\em single} model. We can
directly predict interventional probabilities, simplifying inference and
enhancing outcome prediction accuracy. We demonstrate that an AR model adapted
for CI is efficient and effective in various complex applications such as
navigating mazes, playing chess endgames, and evaluating the impact of certain
keywords on paper acceptance rates. |
| doi_str_mv | 10.48550/arxiv.2409.18581 |
| format | Article |
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low-dimensional confounders and singleton actions. We propose an autoregressive
(AR) CI framework capable of handling complex confounders and sequential
actions common in modern applications. We accomplish this by {\em
sequencification}, transforming data from an underlying causal diagram into a
sequence of tokens. This approach not only enables training with data generated
from any DAG but also extends existing CI capabilities to accommodate
estimating several statistical quantities using a {\em single} model. We can
directly predict interventional probabilities, simplifying inference and
enhancing outcome prediction accuracy. We demonstrate that an AR model adapted
for CI is efficient and effective in various complex applications such as
navigating mazes, playing chess endgames, and evaluating the impact of certain
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low-dimensional confounders and singleton actions. We propose an autoregressive
(AR) CI framework capable of handling complex confounders and sequential
actions common in modern applications. We accomplish this by {\em
sequencification}, transforming data from an underlying causal diagram into a
sequence of tokens. This approach not only enables training with data generated
from any DAG but also extends existing CI capabilities to accommodate
estimating several statistical quantities using a {\em single} model. We can
directly predict interventional probabilities, simplifying inference and
enhancing outcome prediction accuracy. We demonstrate that an AR model adapted
for CI is efficient and effective in various complex applications such as
navigating mazes, playing chess endgames, and evaluating the impact of certain
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low-dimensional confounders and singleton actions. We propose an autoregressive
(AR) CI framework capable of handling complex confounders and sequential
actions common in modern applications. We accomplish this by {\em
sequencification}, transforming data from an underlying causal diagram into a
sequence of tokens. This approach not only enables training with data generated
from any DAG but also extends existing CI capabilities to accommodate
estimating several statistical quantities using a {\em single} model. We can
directly predict interventional probabilities, simplifying inference and
enhancing outcome prediction accuracy. We demonstrate that an AR model adapted
for CI is efficient and effective in various complex applications such as
navigating mazes, playing chess endgames, and evaluating the impact of certain
keywords on paper acceptance rates.</abstract><doi>10.48550/arxiv.2409.18581</doi><oa>free_for_read</oa></addata></record> |
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| title | Using Deep Autoregressive Models as Causal Inference Engines |
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