Causal Pattern
Causal pattern research aims to identify and quantify cause-and-effect relationships within complex systems, moving beyond simple correlations to understand underlying mechanisms. Current research focuses on developing and applying methods like structural causal models, Granger causality, and various machine learning techniques (e.g., sparse regression, GNNs) to uncover causal patterns in diverse data types, including time series, tabular data, and even images. This work has significant implications for various fields, improving the reliability and interpretability of models in areas such as healthcare, agriculture, finance, and autonomous systems by enabling more robust predictions and informed decision-making.
Papers
The Essential Role of Causality in Foundation World Models for Embodied AI
Tarun Gupta, Wenbo Gong, Chao Ma, Nick Pawlowski, Agrin Hilmkil, Meyer Scetbon, Marc Rigter, Ade Famoti, Ashley Juan Llorens, Jianfeng Gao, Stefan Bauer, Danica Kragic, Bernhard Schölkopf, Cheng Zhang
Breaking Symmetry When Training Transformers
Chunsheng Zuo, Michael Guerzhoy
On the Three Demons in Causality in Finance: Time Resolution, Nonstationarity, and Latent Factors
Xinshuai Dong, Haoyue Dai, Yewen Fan, Songyao Jin, Sathyamoorthy Rajendran, Kun Zhang
Emergence and Causality in Complex Systems: A Survey on Causal Emergence and Related Quantitative Studies
Bing Yuan, Zhang Jiang, Aobo Lyu, Jiayun Wu, Zhipeng Wang, Mingzhe Yang, Kaiwei Liu, Muyun Mou, Peng Cui