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Long-term forecasting of multivariate time series in industrial furnaces with dynamic Gaussian Bayesian networks

D. Quesada, G. Valverde, P. Larrañaga, C. Bielza

Engineering Applications of Artificial Intelligence Vol. 103, pp. 104301-1 - 104301-11

Resumen:

Many of the data sets extracted from real-world industrial environments are time series that describe dynamic processes with characteristics that change over time. In this paper, we focus on the fouling process in an industrial furnace, which corresponds to a non-stationary multivariate time series with a seasonal component, non-homogeneous cycles and sporadic human interventions. We aim to forecast the evolution of the temperature inside the furnace over a long span of time of two and a half months. To accomplish this, we model the time series with dynamic Gaussian Bayesian networks (DGBNs) and compare their performance with convolutional recurrent neural networks. Our results show that DGBNs are capable of properly treating seasonal data and can capture the tendency of a time series without being distorted by the effect of interventions or by the varying length of the cycles.


Palabras Clave: Long-term forecast; Furnace optimization; Dynamic Gaussian Bayesian networks; Multivariate time series; Fouling


Índice de impacto JCR y cuartil WoS: 7,802 - Q1 (2021); 7,500 - Q1 (2023)

Referencia DOI: DOI icon https://doi.org/10.1016/j.engappai.2021.104301

Publicado en papel: Agosto 2021.

Publicado on-line: Mayo 2021.



Cita:
D. Quesada, G. Valverde, P. Larrañaga, C. Bielza, Long-term forecasting of multivariate time series in industrial furnaces with dynamic Gaussian Bayesian networks. Engineering Applications of Artificial Intelligence. Vol. 103, pp. 104301-1 - 104301-11, Agosto 2021. [Online: Mayo 2021]


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