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Paper detail

Joint Forecasting and Interpolation of Graph Signals Using Deep Learning

We tackle the problem of forecasting network-signal snapshots using past signal measurements acquired by a subset of network nodes. This task can be seen as a combination of multivariate time-series prediction and graph-signal interpolation. This is a fundamental problem for many applications wherein deploying a high granularity network is impractical. Our solution combines recurrent neural networks with frequency-analysis tools from graph signal processing, and assumes that data is sufficiently smooth with respect to the underlying graph. The proposed approach outperforms state-of-the-art deep learning techniques, especially when only a small fraction of the graph signals is accessible, considering two distinct real world datasets: temperatures in the US and speed flow in Seattle. The results also indicate that our method can handle noisy signals and missing data, making it suitable to many practical applications.

preprint2020arXivOpen access
Gabriela LewenfusWallace Alves MartinsSymeon ChatzinotasBjörn Ottersten
eess.SP
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Gabriela LewenfusWallace Alves MartinsSymeon ChatzinotasBjörn Ottersten

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