https://orcid.org/0000-0002-6321-014X
References
- Agresti, A. (2015), Foundations of Linear and Generalized Linear Models, Hoboken, NJ: Wiley.
- Albert, J. H., and Chib, S. (1993), “Bayesian Analysis of Binary and Polychotomous Response Data,” Journal of the American Statistical Association, 88, 669–679.
- Aliverti, E., and Durante, D. (2019), “Spatial Modeling of Brain Connectivity Data Via Latent Distance Models with Nodes Clustering,” Statistical Analysis and Data Mining: The ASA Data Science Journal, 12, 185–196.
- Athreya, A., Fishkind, D. E., Tang, M., Priebe, C. E., Park, Y., Vogelstein, J. T., Levin, K., Lyzinski, V., Qin, Y., and Sussman, D. L. (2018), “Statistical Inference on Random Dot Product Graphs: A Survey,” Journal of Machine Learning Research, 18, 1–92.
- Bishop, C. M. (2006). Pattern Recognition and Machine Learning, New York: Springer.
- Blei, D. M., Kucukelbir, A., and McAuliffe, J. D. (2017), “Variational Inference: A Review for Statisticians,” Journal of the American Statistical Association, 112, 859–877.
- Bullmore, E., and Sporns, O. (2009), “Complex Brain Networks: Graph Theoretical Analysis of Structural and Functional Systems,” Nature Reviews Neuroscience, 10, 186–198.
- Consonni, G., and Marin, J.-M. (2007), “Mean-Field Variational Approximate Bayesian Inference for Latent Variable Models,” Computational Statistics & Data Analysis, 52, 790–798.
- Csardi, G., and Nepusz, T. (2006), “The Igraph Software Package for Complex Network Research,” InterJournal, Complex Systems:1695.
- D’Angelo, S., Murphy, T. B., and Alfò, M. (2019), “Latent Space Modelling of Multidimensional Networks With Application to the Exchange of Votes in Eurovision Song Contest,” The Annals of Applied Statistics, 13, 900–930.
- Durante, D., and Dunson, D. B. (2014), “Nonparametric Bayes Dynamic Modelling of Relational Data,” Biometrika, 101, 883–898.
- Durante, D., Dunson, D. B., and Vogelstein, J. T. (2017), “Nonparametric Bayes Modeling of Populations of Networks,” Journal of the American Statistical Association, 112, 1516–1530.
- Durante, D., and Rigon, T. (2019), “Conditionally Conjugate Mean-Field Variational Bayes for Logistic Models,” Statistical Science, 34, 472–485.
- Gelfand, A. E., and Smith, A. F. (1990), “Sampling-Based Approaches to Calculating Marginal Densities,” Journal of the American Statistical Association, 85, 398–409.
- Gollini, I., and Murphy, T. B. (2016), “Joint Modeling of Multiple Network Views,” Journal of Computational and Graphical Statistics, 25, 246–265.
- Ho, Q., Yin, J., and Xing, E. P. (2016), “Latent Space Inference of Internet-Scale Networks,” The Journal of Machine Learning Research, 17, 2756–2796.
- Hoff, P. D, (2005), “Bilinear Mixed-Effects Models for Dyadic Data,” Journal of the American Statistical Association, 100, 286–295.
- Hoff, P. D (2021), “Additive and Multiplicative Effects Network Models,” Statistical Science, 36, 34–50.
- Hoff, P. D., Raftery, A. E., and Handcock, M. S. (2002), “Latent Space Approaches to Social Network Analysis,” Journal of the American Statistical Association, 97, 1090–1098.
- Hoffman, M. D., Blei, D. M., Wang, C., and Paisley, J. (2013), “Stochastic Variational Inference,” The Journal of Machine Learning Research, 14, 1303–1347.
- Keeling, M. J., and Eames, K. T. (2005), “Networks and Epidemic Models,” Journal of the Royal Society Interface, 2, 295–307.
- Kucukelbir, A., Ranganath, R., Gelman, A., and Blei, D. (2015). “Automatic Variational Inference in Stan,” in Advances in Neural Information Processing Systems, eds. C. Cortes, D. D. Lee, M. Sugiyama, and R. Garnett, Cambridge, MA: MIT Press, pp. 568–576.
- Newman, M. (2018), Networks, Oxford: Oxford University Press.
- Polson, N. G., Scott, J. G., and Windle, J. (2013), “Bayesian Inference for Logistic Models Using Pólya–Gamma Latent Variables,” Journal of the American Statistical Association, 108, 1339–1349.
- Raftery, A. E., Niu, X., Hoff, P. D., and Yeung, K. Y. (2012), “Fast Inference for the Latent Space Network Model Using a Case-Control Approximate Likelihood,” Journal of Computational and Graphical Statistics, 21, 901–919.
- Robbins, H., and Monro, S. (1951), “A Stochastic Approximation Method,” The Annals of Mathematical Statistics, 22, 400–407.
- Rozemberczki, B., Allen, C., and Sarkar, R. (2021), “Multi-Scale Attributed Node Embedding,” Journal of Complex Networks, 9, 1–22.
- Salter-Townshend, M., and Murphy, T. B. (2013), “Variational Bayesian Inference for the Latent Position Cluster Model,” Computational Statistics and Data Analysis, 57, 661–671.
- Sewell, D. K., and Chen, Y. (2015), “Latent Space Models for Dynamic Networks,” Journal of the American Statistical Association, 110, 1646–1657.
- Stan Development Team (2019), RStan: the R interface to Stan. R package version 2.19.2.
- Tang, M., Sussman, D. L., and Priebe, C. E. (2013), “Universally Consistent Vertex Classification for Latent Positions Graphs,” Annals of Statistics, 41, 1406–1430.
- Wu, J., Vallenius, T., Ovaska, K., Westermarck, J., Mäkelä, T. P., and Hautaniemi, S. (2009), “Integrated Network Analysis Platform for Protein-Protein Interactions,” Nature Methods, 6, 75–77.
- Young, S. J., and Scheinerman, E. R. (2007), “Random Dot Product Graph Models for Social Networks,” in Algorithms and Models for the Web-Graph, International Workshop on Algorithms and Models for the Web-Graph, eds. Anthony Bonato and Fan R. K. Chung, Berlin, Heidelberg: Springer, pp. 138–149.