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].