Integration-Free Training for Spatio-Temporal Multimodal Covariate Deep Kernel Point Processes
Abstract
In this study, we propose a novel deep spatio-temporal point process model, Deep Kernel Mixture Point Processes (DKMPP), that incorporates multimodal covariate information. DKMPP is an enhanced version of Deep Mixture Point Processes (DMPP), which uses a more flexible deep kernel to model complex relationships between events and covariate data, improving the model's expressiveness. To address the intractable training procedure of DKMPP due to the non-integrable deep kernel, we utilize an integration-free method based on score matching, and further improve efficiency by adopting a scalable denoising score matching method. Our experiments demonstrate that DKMPP and its corresponding score-based estimators outperform baseline models, showcasing the advantages of incorporating covariate information, utilizing a deep kernel, and employing score-based estimators.
Cite
Text
Zhang et al. "Integration-Free Training for Spatio-Temporal Multimodal Covariate Deep Kernel Point Processes." Neural Information Processing Systems, 2023.Markdown
[Zhang et al. "Integration-Free Training for Spatio-Temporal Multimodal Covariate Deep Kernel Point Processes." Neural Information Processing Systems, 2023.](https://mlanthology.org/neurips/2023/zhang2023neurips-integrationfree/)BibTeX
@inproceedings{zhang2023neurips-integrationfree,
title = {{Integration-Free Training for Spatio-Temporal Multimodal Covariate Deep Kernel Point Processes}},
author = {Zhang, Yixuan and Kong, Quyu and Zhou, Feng},
booktitle = {Neural Information Processing Systems},
year = {2023},
url = {https://mlanthology.org/neurips/2023/zhang2023neurips-integrationfree/}
}