- Record: found
- Abstract: not found
- Article: not found
Data-driven forecasting of high-dimensional chaotic systems with long short-term memory networks
Read this article at
There is no author summary for this article yet. Authors can add summaries to their articles on ScienceOpen to make them more accessible to a non-specialist audience.
Abstract
<p class="first" id="d3523558e181">We introduce a data-driven forecasting method for
high-dimensional chaotic systems
using long short-term memory (LSTM) recurrent neural networks. The proposed LSTM neural
networks perform inference of high-dimensional dynamical systems in their reduced
order space and are shown to be an effective set of nonlinear approximators of their
attractor. We demonstrate the forecasting performance of the LSTM and compare it with
Gaussian processes (GPs) in time series obtained from the Lorenz 96 system, the Kuramoto–Sivashinsky
equation and a prototype climate model. The LSTM networks outperform the GPs in short-term
forecasting accuracy in all applications considered. A hybrid architecture, extending
the LSTM with a mean stochastic model (MSM–LSTM), is proposed to ensure convergence
to the invariant measure. This novel hybrid method is fully data-driven and extends
the forecasting capabilities of LSTM networks.
</p>
Related collections
Most cited references49
- Record: found
- Abstract: found
- Article: not found
Harnessing nonlinearity: predicting chaotic systems and saving energy in wireless communication.
Herbert Jaeger, Harald Haas (2004)
- Record: found
- Abstract: not found
- Book Chapter: not found
Detecting strange attractors in turbulence
Floris Takens (1981)
- Record: found
- Abstract: not found
- Article: not found
Nonlinear analysis of hydrodynamic instability in laminar flames—I. Derivation of basic equations
G.I. Sivashinsky (1977)