Grouped graphical granger modeling methods for temporal causal modeling

Aurélie C. Lozano; Naoki Abe; Yan Liu; Saharon Rosset

doi:10.1145/1557019.1557085

Grouped graphical granger modeling methods for temporal causal modeling

Aurélie C. Lozano, Naoki Abe, Yan Liu, Saharon Rosset

School of Mathematical Sciences

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We develop and evaluate an approach to causal modeling based on time series data, collectively referred to as\grouped graphical Granger modeling methods." Graphical Granger modeling uses graphical modeling techniques on time series data and invokes the notion of \Granger causality" to make assertions on causality among a potentially large number of time series variables through inference on time-lagged effects. The present paper proposes a novel enhancement to the graphical Granger methodology by developing and applying families of regression methods that are sensitive to group information among variables, to leverage the group structure present in the lagged temporal variables according to the time series they belong to. Additionally, we propose a new family of algorithms we call group boosting, as an improved component of grouped graphical Granger modeling over the existing regression methods with grouped variable selection in the literature (e.g group Lasso). The introduction of group boosting methods is primarily motivated by the need to deal with non-linearity in the data. We perform empirical evaluation to confirm the advantage of the grouped graphical Granger methods over the standard (non-grouped) methods, as well as that specific to the methods based on group boosting. This advantage is also demonstrated for the real world application of gene regulatory network discovery from time-course microarray data.

Original language	English
Title of host publication	KDD '09
Subtitle of host publication	Proceedings of the 15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining
Pages	577-585
Number of pages	9
DOIs	https://doi.org/10.1145/1557019.1557085
State	Published - 2009
Event	15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, KDD '09 - Paris, France Duration: 28 Jun 2009 → 1 Jul 2009

Publication series

Name	Proceedings of the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining

Conference

Conference	15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, KDD '09
Country/Territory	France
City	Paris
Period	28/06/09 → 1/07/09

Keywords

Boosting
Granger causality
Graphical modeling
Temporal causal modeling
Variable group selection

Access to Document

10.1145/1557019.1557085

Cite this

Lozano, A. C., Abe, N., Liu, Y., & Rosset, S. (2009). Grouped graphical granger modeling methods for temporal causal modeling. In KDD '09: Proceedings of the 15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining (pp. 577-585). (Proceedings of the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining). https://doi.org/10.1145/1557019.1557085

@inproceedings{332735b487f149c69ffad26229806d58,

title = "Grouped graphical granger modeling methods for temporal causal modeling",

abstract = "We develop and evaluate an approach to causal modeling based on time series data, collectively referred to as\grouped graphical Granger modeling methods.{"} Graphical Granger modeling uses graphical modeling techniques on time series data and invokes the notion of \Granger causality{"} to make assertions on causality among a potentially large number of time series variables through inference on time-lagged effects. The present paper proposes a novel enhancement to the graphical Granger methodology by developing and applying families of regression methods that are sensitive to group information among variables, to leverage the group structure present in the lagged temporal variables according to the time series they belong to. Additionally, we propose a new family of algorithms we call group boosting, as an improved component of grouped graphical Granger modeling over the existing regression methods with grouped variable selection in the literature (e.g group Lasso). The introduction of group boosting methods is primarily motivated by the need to deal with non-linearity in the data. We perform empirical evaluation to confirm the advantage of the grouped graphical Granger methods over the standard (non-grouped) methods, as well as that specific to the methods based on group boosting. This advantage is also demonstrated for the real world application of gene regulatory network discovery from time-course microarray data.",

keywords = "Boosting, Granger causality, Graphical modeling, Temporal causal modeling, Variable group selection",

author = "Lozano, {Aur{\'e}lie C.} and Naoki Abe and Yan Liu and Saharon Rosset",

note = "Funding Information: The present work has been developed in the framework of an Italian PRIN Project (Research Project of National Interest) named VI-CLOTH (VIrtual CLOTHing), result of a collaboration between Italian departments at the Universita{\textquoteright} di Bergamo, Politecnico di Milano, Universita{\textquoteright} di Firenze and Brescia, cloth manufacturers and CAD-CAM developers. The general objective is the analysis and development of an integrated 3D CAD system for the virtual prototyping of apparel for real manufacturing purposes. In the next Section we briefly describe the main research goals of the project and the overall platform in which our research activity on apparel design takes place. Funding Information: This work has been carried out in the framework of the national PRIN Project Vi-Cloth, funded by the Italian Ministry MIUR. The authors would like to thank the company F.K. Group Italy, and all colleagues from Universita{\textquoteright} di Bergamo, Politecnico di Milano, Universita{\textquoteright} di Firenze and Universita{\textquoteright} di Brescia, Italy, that are participating to the research project.; 15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, KDD '09 ; Conference date: 28-06-2009 Through 01-07-2009",

year = "2009",

doi = "10.1145/1557019.1557085",

language = "אנגלית",

isbn = "9781605584959",

series = "Proceedings of the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining",

pages = "577--585",

booktitle = "KDD '09",

}

Lozano, AC, Abe, N, Liu, Y & Rosset, S 2009, Grouped graphical granger modeling methods for temporal causal modeling. in KDD '09: Proceedings of the 15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. Proceedings of the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, pp. 577-585, 15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, KDD '09, Paris, France, 28/06/09. https://doi.org/10.1145/1557019.1557085

Grouped graphical granger modeling methods for temporal causal modeling. / Lozano, Aurélie C.; Abe, Naoki; Liu, Yan et al.
KDD '09: Proceedings of the 15th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. 2009. p. 577-585 (Proceedings of the ACM SIGKDD International Conference on Knowledge Discovery and Data Mining).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Liu, Yan

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N1 - Funding Information: The present work has been developed in the framework of an Italian PRIN Project (Research Project of National Interest) named VI-CLOTH (VIrtual CLOTHing), result of a collaboration between Italian departments at the Universita’ di Bergamo, Politecnico di Milano, Universita’ di Firenze and Brescia, cloth manufacturers and CAD-CAM developers. The general objective is the analysis and development of an integrated 3D CAD system for the virtual prototyping of apparel for real manufacturing purposes. In the next Section we briefly describe the main research goals of the project and the overall platform in which our research activity on apparel design takes place. Funding Information: This work has been carried out in the framework of the national PRIN Project Vi-Cloth, funded by the Italian Ministry MIUR. The authors would like to thank the company F.K. Group Italy, and all colleagues from Universita’ di Bergamo, Politecnico di Milano, Universita’ di Firenze and Universita’ di Brescia, Italy, that are participating to the research project.

PY - 2009

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N2 - We develop and evaluate an approach to causal modeling based on time series data, collectively referred to as\grouped graphical Granger modeling methods." Graphical Granger modeling uses graphical modeling techniques on time series data and invokes the notion of \Granger causality" to make assertions on causality among a potentially large number of time series variables through inference on time-lagged effects. The present paper proposes a novel enhancement to the graphical Granger methodology by developing and applying families of regression methods that are sensitive to group information among variables, to leverage the group structure present in the lagged temporal variables according to the time series they belong to. Additionally, we propose a new family of algorithms we call group boosting, as an improved component of grouped graphical Granger modeling over the existing regression methods with grouped variable selection in the literature (e.g group Lasso). The introduction of group boosting methods is primarily motivated by the need to deal with non-linearity in the data. We perform empirical evaluation to confirm the advantage of the grouped graphical Granger methods over the standard (non-grouped) methods, as well as that specific to the methods based on group boosting. This advantage is also demonstrated for the real world application of gene regulatory network discovery from time-course microarray data.

AB - We develop and evaluate an approach to causal modeling based on time series data, collectively referred to as\grouped graphical Granger modeling methods." Graphical Granger modeling uses graphical modeling techniques on time series data and invokes the notion of \Granger causality" to make assertions on causality among a potentially large number of time series variables through inference on time-lagged effects. The present paper proposes a novel enhancement to the graphical Granger methodology by developing and applying families of regression methods that are sensitive to group information among variables, to leverage the group structure present in the lagged temporal variables according to the time series they belong to. Additionally, we propose a new family of algorithms we call group boosting, as an improved component of grouped graphical Granger modeling over the existing regression methods with grouped variable selection in the literature (e.g group Lasso). The introduction of group boosting methods is primarily motivated by the need to deal with non-linearity in the data. We perform empirical evaluation to confirm the advantage of the grouped graphical Granger methods over the standard (non-grouped) methods, as well as that specific to the methods based on group boosting. This advantage is also demonstrated for the real world application of gene regulatory network discovery from time-course microarray data.

KW - Boosting

KW - Granger causality

KW - Graphical modeling

KW - Temporal causal modeling

KW - Variable group selection

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ER -

Grouped graphical granger modeling methods for temporal causal modeling

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Keywords

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