English

Decoupling Long- and Short-Term Patterns in Spatiotemporal Inference

Machine Learning 2024-04-24 v3 Artificial Intelligence

Abstract

Sensors are the key to environmental monitoring, which impart benefits to smart cities in many aspects, such as providing real-time air quality information to assist human decision-making. However, it is impractical to deploy massive sensors due to the expensive costs, resulting in sparse data collection. Therefore, how to get fine-grained data measurement has long been a pressing issue. In this paper, we aim to infer values at non-sensor locations based on observations from available sensors (termed spatiotemporal inference), where capturing spatiotemporal relationships among the data plays a critical role. Our investigations reveal two significant insights that have not been explored by previous works. Firstly, data exhibits distinct patterns at both long- and short-term temporal scales, which should be analyzed separately. Secondly, short-term patterns contain more delicate relations including those across spatial and temporal dimensions simultaneously, while long-term patterns involve high-level temporal trends. Based on these observations, we propose to decouple the modeling of short-term and long-term patterns. Specifically, we introduce a joint spatiotemporal graph attention network to learn the relations across space and time for short-term patterns. Furthermore, we propose a graph recurrent network with a time skip strategy to alleviate the gradient vanishing problem and model the long-term dependencies. Experimental results on four public real-world datasets demonstrate that our method effectively captures both long- and short-term relations, achieving state-of-the-art performance against existing methods.

Keywords

Cite

@article{arxiv.2109.09506,
  title  = {Decoupling Long- and Short-Term Patterns in Spatiotemporal Inference},
  author = {Junfeng Hu and Yuxuan Liang and Zhencheng Fan and Li Liu and Yifang Yin and Roger Zimmermann},
  journal= {arXiv preprint arXiv:2109.09506},
  year   = {2024}
}
R2 v1 2026-06-24T06:08:21.330Z