4.6 Article

PID control of uncertain nonlinear stochastic systems with state observer

期刊

SCIENCE CHINA-INFORMATION SCIENCES
卷 64, 期 9, 页码 -

出版社

SCIENCE PRESS
DOI: 10.1007/s11432-020-2979-0

关键词

PID controller; system uncertainty; nonlinear stochastic systems; global stability; state observer

资金

  1. Youth Scholars Fund of Beijing Technology and Business University [PXM2018 014213 000033]
  2. National Natural Science Foundation of China [61973329]

向作者/读者索取更多资源

The classical PID controller is widely used in engineering systems with various uncertainties, but most literature focuses on linear deterministic systems. A recent study shows that PID control can stabilize second-order nonlinear uncertain stochastic systems globally, by constructing a parameter manifold and selecting appropriate PID and observer gain parameters. This approach requires theoretical understanding and specific design methods to achieve stability in nonlinear uncertain systems.
The classical proportional-integral-derivative (PID) controller is ubiquitous in engineering systems that are typically nonlinear with various uncertainties, including random noise. However, most of the literature on PID control focused on linear deterministic systems. Thus, a theory that explains the rationale of the linear PID when dealing with nonlinear uncertain stochastic systems and a concrete design method that can provide explicit formulas for PID parameters are required. Recently, we have demonstrated that the PID controller can globally stabilize a class of second-order nonlinear uncertain stochastic systems, where the derivative of the system output is assumed to be obtainable, which is generally unrealistic in practical applications. This has motivated us to present some theoretical results on PID control with a state observer for nonlinear uncertain stochastic systems. Specifically, a five-dimensional parameter manifold can be explicitly constructed, within which the three PID parameters and two observer gain parameters can be arbitrarily selected to globally stabilize nonlinear uncertain stochastic systems, as long as some knowledge about the unknown nonlinear drift and diffusion terms is available.

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