http://orcid.org/0000-0002-2354-935X
References
- Bhamidi, S., J. M. Steele, and T. Zaman. 2015. Twitter event networks and the superstar model. The Annals of Applied Probability 25 (5):2462–502.
- De Domenico, M., A. Lancichinetti, A. Arenas, and M. Rosvall. 2015. Identifying modular flows on multilayer networks reveals highly overlapping organization in interconnected systems. Physical Review X 5 (1):011027.
- Fortunato, S. 2010. Community detection in graphs. Physics Reports 486 (3–5):75–174.
- Goldenberg, A., A. X. Zheng, S. E. Fienberg, and E. M. Airoldi. 2009. A survey of statistical network models. Foundations and Trends® in Machine Learning 2 (2):129–233.
- Greene, D., D. Doyle, and P. Cunningham. 2010. Tracking the evolution of communities in dynamic social networks. Paper presented at 2010 International conference on advances in social networks analysis and mining (ASONAM), 176–183, Odense, Denmark, August 9.
- Hanneke, S., W. Fu, and E. P. Xing. 2010. Discrete temporal models of social networks. Electronic Journal of Statistics 4:585–605.
- Jeske, D. R., N. T. Stevens, A. G. Tartakovsky, and J. D. Wilson. 2018. Statistical methods for network surveillance. Applied Stochastic Models in Business and Industry 34(4). doi: 10.1002/asmb.2326.
- Kivelä, M., A. Arenas, M. Barthelemy, J. P. Gleeson, Y. Moreno, and M. A. Porter. 2014. Multilayer networks. Journal of Complex Networks 2 (3):203–71.
- Koller, D., and N. Friedman. 2009. Probabilistic graphical models: principles and techniques. Cambridge, MA: MIT Press.
- Krivitsky, P. N. and M. S. Handcock. 2014. A separable model for dynamic networks. Journal of the Royal Statistical Society: Series B (Statistical Methodology) 76 (1):29–46.
- Lee, J., G. Li, and J. D. Wilson. 2017. Varying-coefficient models for dynamic networks. Preprint arXiv:1702:03632.
- McPherson, M., L. Smith-Lovin, and J. M. Cook. 2001. Birds of a feather: Homophily in social networks. Annual Review of Sociology 27 (1):415–44.
- Moreno, J. L. and H. H. Jennings. 1934. Who shall survive? Washington, DC: Nervous and Mental Disease Publishing.
- Mucha, P. J., T. Richardson, K. Macon, M. A. Porter, and J.-P. Onnela. 2010. Community structure in time-dependent, multiscale, and multiplex networks. Science 328 (5980):876–8.
- Parker, K. S., J. D. Wilson, J. Marschall, P. J. Mucha, and J. P. Henderson. 2015. Network analysis reveals sex-and antibiotic resistance-associated antivirulence targets in clinical uropathogens. ACS Infectious Diseases 1 (11):523–32.
- Porter, M. A., J.-P. Onnela, and P. J. Mucha. 2009. Communities in networks. Notices of the AMS 56 (9):1082–97.
- Sewell, D. K., and Y. Chen. 2015. Latent space models for dynamic networks. Journal of the American Statistical Association 110 (512):1646–57.
- Sparks, R. and J. D. Wilson. 2016. Monitoring communication outbreaks among an unknown team of actors in dynamic networks. Preprint arXiv:1606:09308.
- Stillman, P. E., J. D. Wilson, M. J. Denny, B. A. Desmarais, S. Bhamidi, S. J. Cranmer, and Z.-L. Lu. 2017. Statistical modeling of the default mode brain network reveals a segregated highway structure. Scientific Reports 7 (1):11694.
- Ugander, J., B. Karrer, L. Backstrom, and C. Marlow. 2011. The anatomy of the facebook social graph. Preprint arXiv:1111:4503.
- Wainwright, M. J. and M. I. Jordan. 2007. Graphical models, exponential families, and variational inference. Foundations and Trends® in Machine Learning 1 (1–2):1–305.
- Wasserman, S. and K. Faust. 1994. Social network analysis: Methods and applications, vol.8. New York, NY: Cambridge University Press.
- Wilson, J. D., M. J. Denny, S. Bhamidi, S. J. Cranmer, and B. A. Desmarais. 2017. Stochastic weighted graphs: Flexible model specification and simulation. Social Networks 49, 37–47.
- Wilson, J. D., J. Palowitch, S. Bhamidi, and A. B. Nobel. 2017. Community extraction in multilayer networks with heterogeneous community structure. The Journal of Machine Learning Research 18 (1):5458–506.
- Wilson, J. D., N. T. Stevens, and W. H. Woodall. 2016. Modeling and estimating change in temporal networks via a dynamic degree corrected stochastic block model. Preprint arXiv:1605:04049.
- Wilson, J. D., S. Wang, P. J. Mucha, S. Bhamidi, and A. B. Nobel. 2014. A testing based extraction algorithm for identifying significant communities in networks. The Annals of Applied Statistics 8 (3):1853–91.
- Woodall, W. H., M. J. Zhao, K. Paynabar, R. Sparks, and J. D. Wilson. 2017. An overview and perspective on social network monitoring. IISE Transactions 49 (3):354–65.
- Xu, K. S. and A. O. Hero. 2014. Dynamic stochastic blockmodels for time-evolving social networks. IEEE Journal of Selected Topics in Signal Processing 8 (4):552–62.
- Yang, E., P. Ravikumar, G. I. Allen, and Z. Liu. 2015. Graphical models via univariate exponential family distributions. Journal of Machine Learning Research 16 (1):3813–47.
- Zaman, T.R., R. Herbrich, J. Van Gael, and D. Stern. 2010. Predicting information spreading in twitter. Paper presented at Workshop on computational social science and the wisdom of crowds, NIPS, vol. 104, 17599–601, Vancouver, Canada, December 10.