TR2019-080

Data-Driven Global Robust Optimal Output Regulation of Uncertain Partially Linear Systems


    •  Odekunle, A., Gao, W., Wang, Y., "Data-Driven Global Robust Optimal Output Regulation of Uncertain Partially Linear Systems", IEEE/CAA Journal of Automatica Sinica, DOI: 10.1109/​JAS.2019.19117678, Vol. 6, No. 5, pp. 1108-1115, July 2019.
      BibTeX TR2019-080 PDF
      • @article{Odekunle2019jul,
      • author = {Odekunle, Adedapo and Gao, Weinan and Wang, Yebin},
      • title = {Data-Driven Global Robust Optimal Output Regulation of Uncertain Partially Linear Systems},
      • journal = {IEEE/CAA Journal of Automatica Sinica},
      • year = 2019,
      • volume = 6,
      • number = 5,
      • pages = {1108--1115},
      • month = jul,
      • doi = {10.1109/JAS.2019.19117678},
      • url = {https://www.merl.com/publications/TR2019-080}
      • }
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  • Research Areas:

    Control, Machine Learning

Abstract:

In this paper, a data-driven control approach is developed by reinforcement learning (RL) to solve the global robust optimal output regulation problem (GROORP) of partially linear systems with both static uncertainties and nonlinear dynamic uncertainties. By developing a proper feedforward controller, the GROORP is converted into a global robust optimal stabilization problem. A robust optimal feedback controller is designed which is able to stabilize the system in the presence of dynamic uncertainties. The closed-loop system is assured to be input-to-output stable regarding the static uncertainty as the external input. This robust optimal controller is numerically approximated via RL. Nonlinear small-gain theory is applied to show the input-to-output stability for the closed-loop system and thus solves the original GROORP. Simulation results validates the efficacy of the proposed methodology.