Estimation of Causal Peer Influence Effects

Panos Toulis; Edward Kao

Estimation of Causal Peer Influence Effects

Panos Toulis, Edward Kao

Proceedings of the 30th International Conference on Machine Learning, PMLR 28(3):1489-1497, 2013.

Abstract

The broad adoption of social media has generated interest in leveraging peer influence for inducing desired user behavior. Quantifying the causal effect of peer influence presents technical challenges, however, including how to deal with social interference, complex response functions and network uncertainty. In this paper, we extend potential outcomes to allow for interference, we introduce well-defined causal estimands of peer-influence, and we develop two estimation procedures: a frequentist procedure relying on a sequential randomization design that requires knowledge of the network but operates under complicated response functions, and a Bayesian procedure which accounts for network uncertainty but relies on a linear response assumption to increase estimation precision. Our results show the advantages and disadvantages of the proposed methods in a number of situations.

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BibTeX


@InProceedings{pmlr-v28-toulis13,
  title = 	 {Estimation of Causal Peer Influence Effects},
  author = 	 {Toulis, Panos and Kao, Edward},
  booktitle = 	 {Proceedings of the 30th International Conference on Machine Learning},
  pages = 	 {1489--1497},
  year = 	 {2013},
  editor = 	 {Dasgupta, Sanjoy and McAllester, David},
  volume = 	 {28},
  number =       {3},
  series = 	 {Proceedings of Machine Learning Research},
  address = 	 {Atlanta, Georgia, USA},
  month = 	 {17--19 Jun},
  publisher =    {PMLR},
  pdf = 	 {http://proceedings.mlr.press/v28/toulis13.pdf},
  url = 	 {https://proceedings.mlr.press/v28/toulis13.html},
  abstract = 	 {The broad adoption of social media has generated interest in leveraging peer influence for inducing desired user behavior. Quantifying the causal effect of peer influence presents technical challenges, however, including how to deal with social interference, complex response functions and network uncertainty. In this paper, we extend potential outcomes to allow for interference, we introduce well-defined causal estimands of peer-influence, and we develop two estimation procedures: a frequentist procedure relying on a sequential randomization design that requires knowledge of the network but operates under complicated response functions, and a Bayesian procedure which accounts for network uncertainty but relies on a linear response assumption to increase estimation precision. Our results show the advantages and disadvantages of the proposed methods in a number of situations.}
}

Endnote

%0 Conference Paper
%T Estimation of Causal Peer Influence Effects
%A Panos Toulis
%A Edward Kao
%B Proceedings of the 30th International Conference on Machine Learning
%C Proceedings of Machine Learning Research
%D 2013
%E Sanjoy Dasgupta
%E David McAllester	
%F pmlr-v28-toulis13
%I PMLR
%P 1489--1497
%U https://proceedings.mlr.press/v28/toulis13.html
%V 28
%N 3
%X The broad adoption of social media has generated interest in leveraging peer influence for inducing desired user behavior. Quantifying the causal effect of peer influence presents technical challenges, however, including how to deal with social interference, complex response functions and network uncertainty. In this paper, we extend potential outcomes to allow for interference, we introduce well-defined causal estimands of peer-influence, and we develop two estimation procedures: a frequentist procedure relying on a sequential randomization design that requires knowledge of the network but operates under complicated response functions, and a Bayesian procedure which accounts for network uncertainty but relies on a linear response assumption to increase estimation precision. Our results show the advantages and disadvantages of the proposed methods in a number of situations.

RIS


TY  - CPAPER
TI  - Estimation of Causal Peer Influence Effects
AU  - Panos Toulis
AU  - Edward Kao
BT  - Proceedings of the 30th International Conference on Machine Learning
DA  - 2013/05/26
ED  - Sanjoy Dasgupta
ED  - David McAllester	
ID  - pmlr-v28-toulis13
PB  - PMLR
DP  - Proceedings of Machine Learning Research
VL  - 28
IS  - 3
SP  - 1489
EP  - 1497
L1  - http://proceedings.mlr.press/v28/toulis13.pdf
UR  - https://proceedings.mlr.press/v28/toulis13.html
AB  - The broad adoption of social media has generated interest in leveraging peer influence for inducing desired user behavior. Quantifying the causal effect of peer influence presents technical challenges, however, including how to deal with social interference, complex response functions and network uncertainty. In this paper, we extend potential outcomes to allow for interference, we introduce well-defined causal estimands of peer-influence, and we develop two estimation procedures: a frequentist procedure relying on a sequential randomization design that requires knowledge of the network but operates under complicated response functions, and a Bayesian procedure which accounts for network uncertainty but relies on a linear response assumption to increase estimation precision. Our results show the advantages and disadvantages of the proposed methods in a number of situations.
ER  -

APA


Toulis, P. & Kao, E.. (2013). Estimation of Causal Peer Influence Effects. Proceedings of the 30th International Conference on Machine Learning, in Proceedings of Machine Learning Research 28(3):1489-1497 Available from https://proceedings.mlr.press/v28/toulis13.html.

Estimation of Causal Peer Influence Effects

Abstract

Cite this Paper

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