Short-term Prediction and Filtering of Solar Power Using State-Space Gaussian Processes (Papers Track)

So Takao (UCL); Sean Nassimiha (UCL); Peter Dudfield (Open Climate Fix); Jack Kelly (Open Climate Fix); Marc Deisenroth (University College London)

Paper PDF Slides PDF Recorded Talk NeurIPS 2022 Poster Topia Link Cite
Time-series Analysis Climate Science & Modeling Power & Energy Causal & Bayesian Methods Uncertainty Quantification & Robustness

Abstract

Short-term forecasting of solar photovoltaic energy (PV) production is important for powerplant management. Ideally these forecasts are equipped with error bars, so that downstream decisions can account for uncertainty. To produce predictions with error bars in this setting, we consider Gaussian processes (GPs) for modelling and predicting solar photovoltaic energy production in the UK. A standard application of GP regression on the PV timeseries data is infeasible due to the large data size and non-Gaussianity of PV readings. However, this is made possible by leveraging recent advances in scalable GP inference, in particular, by using the state-space form of GPs, combined with modern variational inference techniques. The resulting model is not only scalable to large datasets but can also handle continuous data streams via Kalman filtering.

Recorded Talk (direct link)

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