Tweedie-Hawkes Processes: Interpreting the Phenomena of Outbreaks
Abstract
Self-exciting event sequences, in which the occurrence of an event increases the probability of triggering subsequent ones, are common in many disciplines. In this paper, we propose a Bayesian model called Tweedie-Hawkes Processes (THP), which is able to model the outbreaks of events and find out the dominant factors behind. THP leverages on the Tweedie distribution in capturing various excitation effects. A variational EM algorithm is developed for model inference. Some theoretical properties of THP, including the sub-criticality, convergence of the learning algorithm and kernel selection method are discussed. Applications to Epidemiology and information diffusion analysis demonstrate the versatility of our model in various disciplines. Evaluations on real-world datasets show that THP outperforms the rival state-of-the-art baselines in the task of forecasting future events.
Cite
Text
Li and Ke. "Tweedie-Hawkes Processes: Interpreting the Phenomena of Outbreaks." AAAI Conference on Artificial Intelligence, 2020. doi:10.1609/AAAI.V34I04.5902Markdown
[Li and Ke. "Tweedie-Hawkes Processes: Interpreting the Phenomena of Outbreaks." AAAI Conference on Artificial Intelligence, 2020.](https://mlanthology.org/aaai/2020/li2020aaai-tweedie/) doi:10.1609/AAAI.V34I04.5902BibTeX
@inproceedings{li2020aaai-tweedie,
title = {{Tweedie-Hawkes Processes: Interpreting the Phenomena of Outbreaks}},
author = {Li, Tianbo and Ke, Yiping},
booktitle = {AAAI Conference on Artificial Intelligence},
year = {2020},
pages = {4699-4706},
doi = {10.1609/AAAI.V34I04.5902},
url = {https://mlanthology.org/aaai/2020/li2020aaai-tweedie/}
}