Songyu Ke scite author profile

Numerous sensors have been deployed in different geospatial locations to continuously and cooperatively monitor the surrounding environment, such as the air quality. These sensors generate multiple geo-sensory time series, with spatial correlations between their readings. Forecasting geo-sensory time series is of great importance yet very challenging as it is affected by many complex factors, i.e., dynamic spatio-temporal correlations and external factors. In this paper, we predict the readings of a geo-sensor over several future hours by using a multi-level attention-based recurrent neural network that considers multiple sensors' readings, meteorological data, and spatial data. More specifically, our model consists of two major parts: 1) a multi-level attention mechanism to model the dynamic spatio-temporal dependencies. 2) a general fusion module to incorporate the external factors from different domains. Experiments on two types of real-world datasets, viz., air quality data and water quality data, demonstrate that our method outperforms nine baseline methods.

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AutoSTG: Neural Architecture Search for Predictions of Spatio-Temporal Graph✱

Pan

Yang

et al. 2021

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Gas-Theft Suspect Detection Among Boiler Room Users: A Data-Driven Approach

Yang

Huang

et al. 2022

IEEE Trans. Knowl. Data Eng.

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AutoSTG+: An automatic framework to discover the optimal network for spatio-temporal graph prediction

Pan

et al. 2023

Artificial Intelligence

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Songyu Ke

GeoMAN: Multi-level Attention Networks for Geo-sensory Time Series Prediction

AutoSTG: Neural Architecture Search for Predictions of Spatio-Temporal Graph✱

Gas-Theft Suspect Detection Among Boiler Room Users: A Data-Driven Approach

AutoSTG+: An automatic framework to discover the optimal network for spatio-temporal graph prediction

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