We propose a deep learning approach for multivariate forecasting of energy time series. It is developed by using Long Short-Term Memory deep neural networks so that different related time series, incorporating information of longterm dependencies, can be joined together as a multidimensional input of the deep neural network. The learning scheme can be represented as a stacked LSTM network in which one or more layers are cascaded, feeding their output to the input of the sequent layer. To prove the effectiveness of the approach, it has been tested on real-world problems pertaining to the energy field, where time series prediction is of paramount importance..
Multidimensional feeding of LSTM networks for multivariate prediction of energy time series / Succetti, F.; Rosato, A.; Araneo, R.; Panella, M.. - (2020), pp. 1-5. (Intervento presentato al convegno 2020 IEEE International conference on environment and electrical engineering and 2020 IEEE Industrial and Commercial Power Systems Europe, EEEIC, I and CPS Europe 2020 tenutosi a Madrid (virtual); Spain) [10.1109/EEEIC/ICPSEurope49358.2020.9160593].
Multidimensional feeding of LSTM networks for multivariate prediction of energy time series
Succetti F.;Rosato A.;Araneo R.;Panella M.
2020
Abstract
We propose a deep learning approach for multivariate forecasting of energy time series. It is developed by using Long Short-Term Memory deep neural networks so that different related time series, incorporating information of longterm dependencies, can be joined together as a multidimensional input of the deep neural network. The learning scheme can be represented as a stacked LSTM network in which one or more layers are cascaded, feeding their output to the input of the sequent layer. To prove the effectiveness of the approach, it has been tested on real-world problems pertaining to the energy field, where time series prediction is of paramount importance..| File | Dimensione | Formato | |
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