Temporal Multiresolution Graph Neural Networks For Epidemic Prediction
- URL: http://arxiv.org/abs/2205.14831v2
- Date: Wed, 1 Jun 2022 05:17:12 GMT
- Title: Temporal Multiresolution Graph Neural Networks For Epidemic Prediction
- Authors: Truong Son Hy and Viet Bach Nguyen and Long Tran-Thanh and Risi Kondor
- Abstract summary: We introduce Temporal Multiresolution Graph Neural Networks (TMGNN), the first architecture that both learns to construct the multiscale and multiresolution graph structures and incorporates the time-series signals to capture the temporal changes of the dynamic graphs.
We have applied our proposed model to the task of predicting future spreading of epidemic and pandemic based on the historical time-series data collected from the actual COVID-19 pandemic and chickenpox epidemic in several European countries.
- Score: 21.63446544791516
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: In this paper, we introduce Temporal Multiresolution Graph Neural Networks
(TMGNN), the first architecture that both learns to construct the multiscale
and multiresolution graph structures and incorporates the time-series signals
to capture the temporal changes of the dynamic graphs. We have applied our
proposed model to the task of predicting future spreading of epidemic and
pandemic based on the historical time-series data collected from the actual
COVID-19 pandemic and chickenpox epidemic in several European countries, and
have obtained competitive results in comparison to other previous
state-of-the-art temporal architectures and graph learning algorithms. We have
shown that capturing the multiscale and multiresolution structures of graphs is
important to extract either local or global information that play a critical
role in understanding the dynamic of a global pandemic such as COVID-19 which
started from a local city and spread to the whole world. Our work brings a
promising research direction in forecasting and mitigating future epidemics and
pandemics.
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