A Collaborative Approach for Large-scale Electricity Consumption Using Federated Learning
Kuupäev
2022
Autorid
Ajakirja pealkiri
Ajakirja ISSN
Köite pealkiri
Kirjastaja
Tartu Ülikool
Abstrakt
Forecasting energy demand is a crucial topic in the energy industry to keep the balance
between supply and demand, hence keeping the grid in effective operation. The adoption
of renewable energy sources for the supply makes the forecasting problem ever the
more prominent because of the additional uncertainty they bring to the grid, besides
the consumers’ energy usage patterns. The uncertainty on the demand side forecasting
can be theoretically overcome via a centralized predictive model that takes note of the
consumers’ past electricity usage. However, in practice, forecasting energy demand is
challenged by users’ concerns for the privacy of their energy data and the scalability of
storing it, in addition to completing the model updates in time. Both problems can be
solved if the centralized training paradigm is replaced with federated training, where each
household trains its model locally, and the centralized server only acts as a coordinator
by aggregating the weights of the individual models’ and sending the updates back to
them, all without seeing the consumers’ data. Because of the diversity in energy usage,
the convergence of local models may require too much time. This study will investigate
federated learning to develop a clustering algorithm that groups similar residences as one
node to fasten the model convergence without reducing its accuracy.
Kirjeldus
Märksõnad
Federated Learning, Clustered Federated Learning, Federated Energy Forecasting, Deep Learning, Energy Demand Forecasting, Statistical Heterogeneity, Smart Grids