Research
My interests are primarily focused around network-based models and include random graphs, graphon theory, interacting particle systems, point process theory, large deviations and Markov random fields.
Preprints
A. Ganguly and K. Ramanan, "Interacting jump processes preserve semi-global Markov random fields on path space," Preprint, 2022 [ArXiv].
A. Ganguly and K. Ramanan, "Hydrodynamic limits of non-Markovian interacting particle systems on sparse graphs," Preprint, 2022 [ArXiv].
A. Ganguly and A. McDonough, "Rotor-routing induces the only consistent sandpile torsor structure on plane graphs," Preprint, 2022 [ArXiv].
Publications
A. Ganguly and A. McDonough, "Rotor-routing induces the only consistent sandpile torsor structure on plane graphs," SĂ©minaire Lotharingien de Combinatoire, Vol 86B (2022), Extended Abstract [pdf].
Thesis
A. Ganguly, "Non-Markovian Interacting Particle Systems on Large Sparse Graphs: Hydrodynamic Limits and Marginal Characterizations," Doctoral Thesis, Brown University, Brown Digital Repository, Brown University Library (2022) [pdf].