TR2018-198

Learning Dynamical Demand Response Model in Real-Time Pricing Program


    •  Xu, H., Sun, H., Nikovski, D.N., Shoichi, K., Mori, K., "Learning Dynamical Demand Response Model in Real-Time Pricing Program", IEEE PES Innovative Smart Grid Technologies Conference - North America (ISGT NA), February.
      BibTeX TR2018-198 PDF
      • @inproceedings{Xu2019feb,
      • author = {Xu, Hanchen and Sun, Hongbo and Nikovski, Daniel N. and Shoichi, Kitamura and Mori, Kazuyuki},
      • title = {Learning Dynamical Demand Response Model in Real-Time Pricing Program},
      • booktitle = {IEEE PES Innovative Smart Grid Technologies Conference - North America (ISGT NA)},
      • year = 2019,
      • month = feb,
      • url = {https://www.merl.com/publications/TR2018-198}
      • }
  • MERL Contacts:
  • Research Areas:

    Data Analytics, Electric Systems, Machine Learning

Abstract:

Price responsiveness is a major feature of end use customers (EUCs) that participate in demand response (DR) programs, and has been conventionally modeled with static demand functions, which take the electricity price as the input and the aggregate energy consumption as the output. This, however, neglects the inherent temporal correlation of the EUC behaviors, and may result in large errors when predicting the actual responses of EUCs in real-time pricing (RTP) programs. In this paper, we propose a dynamical DR model so as to capture the temporal behavior of the EUCs. The states in the proposed dynamical DR model can be explicitly chosen, in which case the model can be represented by a linear function or a multi-layer feedforward neural network, or implicitly chosen, in which case the model can be represented by a recurrent neural network or a long short-term memory unit network. In both cases, the dynamical DR model can be learned from historical price and energy consumption data. Numerical simulation illustrated how the states are chosen and also showed the proposed dynamical DR model significantly outperforms the static ones.