Add and Thin: Diffusion for Temporal Point Processes
Abstract
Autoregressive neural networks within the temporal point process (TPP) framework have become the standard for modeling continuous-time event data. Even though these models can expressively capture event sequences in a one-step-ahead fashion, they are inherently limited for long-term forecasting applications due to the accumulation of errors caused by their sequential nature. To overcome these limitations, we derive ADD-THIN, a principled probabilistic denoising diffusion model for TPPs that operates on entire event sequences. Unlike existing diffusion approaches, ADD-THIN naturally handles data with discrete and continuous components. In experiments on synthetic and real-world datasets, our model matches the state-of-the-art TPP models in density estimation and strongly outperforms them in forecasting.
Cite
Text
Lüdke et al. "Add and Thin: Diffusion for Temporal Point Processes." Neural Information Processing Systems, 2023.Markdown
[Lüdke et al. "Add and Thin: Diffusion for Temporal Point Processes." Neural Information Processing Systems, 2023.](https://mlanthology.org/neurips/2023/ludke2023neurips-add/)BibTeX
@inproceedings{ludke2023neurips-add,
title = {{Add and Thin: Diffusion for Temporal Point Processes}},
author = {Lüdke, David and Biloš, Marin and Shchur, Oleksandr and Lienen, Marten and Günnemann, Stephan},
booktitle = {Neural Information Processing Systems},
year = {2023},
url = {https://mlanthology.org/neurips/2023/ludke2023neurips-add/}
}