research-article

Randomization tests for distinguishing social influence and homophily effects

Authors:

Timothy La Fond,

Jennifer NevilleAuthors Info & Claims

WWW '10: Proceedings of the 19th international conference on World wide web

Pages 601 - 610

https://doi.org/10.1145/1772690.1772752

Published: 26 April 2010 Publication History

Abstract

Relational autocorrelation is ubiquitous in relational domains. This observed correlation between class labels of linked instances in a network (e.g., two friends are more likely to share political beliefs than two randomly selected people) can be due to the effects of two different social processes. If social influence effects are present, instances are likely to change their attributes to conform to their neighbor values. If homophily effects are present, instances are likely to link to other individuals with similar attribute values. Both these effects will result in autocorrelated attribute values. When analyzing static relational networks it is impossible to determine how much of the observed correlation is due each of these factors. However, the recent surge of interest in social networks has increased the availability of dynamic network data. In this paper, we present a randomization technique for temporal network data where the attributes and links change over time. Given data from two time steps, we measure the gain in correlation and assess whether a significant portion of this gain is due to influence and/or homophily. We demonstrate the efficacy of our method on semi-synthetic data and then apply the method to a real-world social networks dataset, showing the impact of both influence and homophily effects.

References

[1]

A. Anagnostopoulos, R. Kumar, and M. Mahdian. Influence and correlation in social networks. In KD '08: Proceeding of the 14th ACM SIGKDD international conference on Knowledge discovery and data mining, pages 7--15, 2008.

Digital Library

[2]

L. Anselin. Spatial Econometrics: Methods and Models. Kluwer Academic Publisher, The Netherlands, 1998.

[3]

S. Aral, L. Muchnika, and A. Sundararajan. Distinguishing influence-based contagion from homophily-driven diffusion in dynamic networks. Proceedings of the National Academy of Sciences, 106(51):21544--21549, 2009.

[4]

L. Backstrom, D. Huttenlocher, J. Kleinberg, and X. Lan. Group formation in large social networks: membership, growth, and evolution. In KDD '06: Proceedings of the 12th ACM SIGKDD international conference on Knowledge discovery and data mining, pages 44--54, 2006.

Digital Library

[5]

S. Chakrabarti, B. Dom, and P. Indyk. Enhanced hypertext categorization using hyperlinks. In Proceedings of the ACM SIGMOD International Conference on Management of Data, pages 307--318, 1998.

Digital Library

[6]

D. Crandall, D. Cosley, D. Huttenlocher, J. Kleinberg, and S. Suri. Feedback effects between similarity and social influence in online communities. In KDD '08: Proceeding of the 14th ACM SIGKDD international conference on Knowledge discovery and data mining, pages 160--168, 2008.

Digital Library

[7]

P. Doreian. Network autocorrelation models: Problems and prospects. In Spatial Statistics: Past, Present, and Future, chapter Monograph 12, pages pp. 369--389. Ann Arbor Institute of Mathematical Geography, 1990.

[8]

H. Eldardiry and J. Neville. A resampling technique for relational data graphs. In Proceedings of the 2nd SNA Workshop, 14th ACM SIGKDD Conference on Knowledge Discovery and Data Mining, 2008.

[9]

F. Guo, S. Hanneke, W. Fu, and E. Xing. Recovering temporally rewiring networks: A model-based approach. In Proceedings of the 24th International Conference on Machine Learning (ICML), 2007.

Digital Library

[10]

D. Jensen, J. Neville, and B. Gallagher. Why collective inference improves relational classification. In Proceedings of the 10th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining, pages 593--598, 2004.

Digital Library

[11]

D. Jensen, J. Neville, and M. Rattigan. Randomization tests for relational learning. Technical Report 03-05, Dept of Computer Science, University of Massachusetts Amherst, 2003.

[12]

B. Karrer, E. Levina, and M. Newman. Robustness of community structure in networks. Physical Review E, 77:046119, 2008.

[13]

P. Marsden and N. Friedkin. Network studies of social influence. Sociological Methods and Research, 22(1):127--151, 1993.

[14]

W. Mason, F. Conrey, and E. Smith. Situating social influence processes: Dynamic, multidirectional flows of influence within social networks. Personality and Social Psychology Review, 11:3:279--300, 2007.

[15]

M. McPherson, L. Smith-Lovin, and J. Cook. Birds of a feather: Homophily in social networks. Annual Review of Sociology, 27:415--445, 2001.

[16]

R. Milo, S. Shen-Orr, S. Itzkovitz, N. Kashtan, D. Chklovskii, and U. Alon. Network motifs: Simple building blocks of complex networks. Science, 298:5594:824--827, 2002.

[17]

T. Mirer. Economic Statistics and Econometrics. Macmillan Publishing Co, New York, 1983.

[18]

J. Neville and D. Jensen. Iterative classification in relational data. In Proceedings of the Workshop on Statistical Relational Learning, 17th National Conference on Artificial Intelligence, pages 42--49, 2000.

[19]

E. Noreen. Computer Intensive Methods for Testing Hypotheses. Wiley, 1989.

[20]

G. Robins, T. Snijders, P. Wang, M. Handcock, and P. Pattison. Recent developments in exponential random graph (p*) models for social networks. Social Networks, 29:192--215, 2007.

[21]

U. Sharan and J. Neville. Temporal-relational classifiers for prediction in evolving domains. In Proceedings of the 8th IEEE International Conference on Data Mining, 2008.

Digital Library

[22]

P. Singla and M. Richardson. Yes, there is a correlation: - from social networks to personal behavior on the web. In WWW '08: Proceeding of the 17th international conference on World Wide Web, pages 655--664, 2008.

Digital Library

[23]

T. Snijders, C. Steglich, and M. Schweinberger. Modeling the co-evolution of networks and behavior. In Longitudinal models in the behavioral and related sciences, pages 41--71, 2007.

[24]

B. Taskar, E. Segal, and D. Koller. Probabilistic classification and clustering in relational data. In Proceedings of the 17th International Joint Conference on Artificial Intelligence, pages 870--878, 2001.

Digital Library

Cited By

Horel TMasoero LAgrawal RCampbell TRoithmayr D(2024)Detecting the Network Spread of Police Shooting in the Chicago Police DepartmentSSRN Electronic Journal10.2139/ssrn.4714130Online publication date: 2024
https://doi.org/10.2139/ssrn.4714130
Yang HWu XQiu ZZheng YChen X(2024)Distributional Fairness-aware RecommendationACM Transactions on Information Systems10.1145/365285442:5(1-28)Online publication date: 29-Apr-2024
https://dl.acm.org/doi/10.1145/3652854
Li MZhang XLi MChen YBai YZhang BYang R(2024)Modeling Group Opinion Evolution on Online Social Networks: A Gravitational Field PerspectiveIEEE Transactions on Computational Social Systems10.1109/TCSS.2023.325689211:1(1121-1132)Online publication date: Feb-2024
https://doi.org/10.1109/TCSS.2023.3256892
Show More Cited By

Index Terms

Randomization tests for distinguishing social influence and homophily effects
1. Information systems

Recommendations

Feedback effects between similarity and social influence in online communities
KDD '08: Proceedings of the 14th ACM SIGKDD international conference on Knowledge discovery and data mining

A fundamental open question in the analysis of social networks is to understand the interplay between similarity and social ties. People are similar to their neighbors in a social network for two distinct reasons: first, they grow to resemble their ...
Friendship prediction and homophily in social media

Social media have attracted considerable attention because their open-ended nature allows users to create lightweight semantic scaffolding to organize and share content. To date, the interplay of the social and topical components of social media has ...
Homophily and social influence among online casual game players

We examine homophily and social influence processes among online game players.Players tend not to initiate ties, unless there are other desirable properties.Players tend to have reciprocated ties.No strong homophily and social influence processes were ...

Comments

Information & Contributors

Information

Published In

cover image ACM Other conferences

WWW '10: Proceedings of the 19th international conference on World wide web

April 2010

1407 pages

ISBN:9781605587998

DOI:10.1145/1772690

General Chairs:
Michael Rappa
North Carolina State University, USA
,
Paul Jones
University of North Carolina at Chapel Hill, USA
,
Program Chairs:
Juliana Freire
University of Utah, USA
,
Soumen Chakrabarti
Indian Institute of Technology, India

Copyright © 2010 International World Wide Web Conference Committee (IW3C2).

Publisher

Association for Computing Machinery

New York, NY, United States

Publication History

Published: 26 April 2010

Permissions

Request permissions for this article.

Request Permissions

Check for updates

Author Tags

Qualifiers

Research-article

Conference

WWW '10

WWW '10: The 19th International World Wide Web Conference

April 26 - 30, 2010

North Carolina, Raleigh, USA

Acceptance Rates

Overall Acceptance Rate 1,735 of 7,230 submissions, 24%

Contributors

Other Metrics

View Article Metrics

Bibliometrics & Citations

Bibliometrics

Article Metrics

132
Total Citations
View Citations
1,238
Total Downloads

Downloads (Last 12 months)42
Downloads (Last 6 weeks)2

Reflects downloads up to 18 Jan 2025

Other Metrics

View Author Metrics

Citations

Cited By

Horel TMasoero LAgrawal RCampbell TRoithmayr D(2024)Detecting the Network Spread of Police Shooting in the Chicago Police DepartmentSSRN Electronic Journal10.2139/ssrn.4714130Online publication date: 2024
https://doi.org/10.2139/ssrn.4714130
Yang HWu XQiu ZZheng YChen X(2024)Distributional Fairness-aware RecommendationACM Transactions on Information Systems10.1145/365285442:5(1-28)Online publication date: 29-Apr-2024
https://dl.acm.org/doi/10.1145/3652854
Li MZhang XLi MChen YBai YZhang BYang R(2024)Modeling Group Opinion Evolution on Online Social Networks: A Gravitational Field PerspectiveIEEE Transactions on Computational Social Systems10.1109/TCSS.2023.325689211:1(1121-1132)Online publication date: Feb-2024
https://doi.org/10.1109/TCSS.2023.3256892
Muro CLi BHe K(2024)LUSTC: A Novel Approach for Predicting Link States on Dynamic Attributed NetworksIEEE Transactions on Computational Social Systems10.1109/TCSS.2023.325226111:1(1075-1085)Online publication date: Feb-2024
https://doi.org/10.1109/TCSS.2023.3252261
Montes FBlanco MUseche ASanchez-Franco SCaro CTong LLi JZhou HMurray JSarmiento OKee FHunter R(2023)Exploring the mechanistic pathways of how social network influences social norms in adolescent smoking prevention interventionsScientific Reports10.1038/s41598-023-28161-713:1Online publication date: 21-Feb-2023
https://doi.org/10.1038/s41598-023-28161-7
Siam MLindell MWang H(2023)Modeling of multi-hazard warning dissemination time distributions: An agent-based approachInternational Journal of Disaster Risk Reduction10.1016/j.ijdrr.2023.104207(104207)Online publication date: Dec-2023
https://doi.org/10.1016/j.ijdrr.2023.104207
Zhang HZhu Q(2023)An improved dynamic latent variable regression model for fault diagnosis and causal analysisThe Canadian Journal of Chemical Engineering10.1002/cjce.24757101:6(3333-3350)Online publication date: 9-Jan-2023
https://doi.org/10.1002/cjce.24757
Hai-Jew S(2022)Self-Presenting Virtually for Remote Social InfluencePractical Peer-to-Peer Teaching and Learning on the Social Web10.4018/978-1-7998-6496-7.ch013(407-461)Online publication date: 2022
https://doi.org/10.4018/978-1-7998-6496-7.ch013
Wang NLin LLi JWang H(2022)Unbiased Graph Embedding with Biased Graph ObservationsProceedings of the ACM Web Conference 202210.1145/3485447.3512189(1423-1433)Online publication date: 25-Apr-2022
https://dl.acm.org/doi/10.1145/3485447.3512189
Dimitriadis IPoiitis MFaloutsos CVakali A(2022)TG-OUT: temporal outlier patterns detection in Twitter attribute induced graphsWorld Wide Web10.1007/s11280-021-00986-025:6(2429-2453)Online publication date: 28-Mar-2022
https://doi.org/10.1007/s11280-021-00986-0
Show More Cited By

View Options

Login options

Check if you have access through your login credentials or your institution to get full access on this article.

Full Access

Get this Publication

View options

PDF

View or Download as a PDF file.

eReader

View online with eReader.

EPUB

View this article in ePub.

Media

Figures

Other

Tables

View Table of Contents