Robust finite-time terminal sliding mode control for a Francis hydroturbine governing system
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Publication:328390
DOI10.1155/2016/2518734zbMath1346.93113OpenAlexW2507490378WikidataQ59126003 ScholiaQ59126003MaRDI QIDQ328390
Fengjiao Wu, Junling Ding, Zhengzhong Wang
Publication date: 20 October 2016
Published in: Journal of Control Science and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1155/2016/2518734
Sensitivity (robustness) (93B35) Nonlinear systems in control theory (93C10) Application models in control theory (93C95) Vibrations in dynamical problems in solid mechanics (74H45) Variable structure systems (93B12)
Cites Work
- Robust stabilization and synchronization of a class of fractional-order chaotic systems via a novel fractional sliding mode controller
- No-chattering sliding mode control chaos in Hindmarsh-Rose neurons with uncertain parameters
- Finite-time stability and instability of stochastic nonlinear systems
- The generalized Hamiltonian model for the shafting transient analysis of the hydro turbine generating sets
- Continuous finite-time control for robotic manipulators with terminal sliding mode
- Synchronization between integer-order chaotic systems and a class of fractional-order chaotic systems via sliding mode control
- Finite-time formation control of multiple nonholonomic mobile robots
- Multi-surface sliding control for fast finite-time leader-follower consensus with high order SISO uncertain nonlinear agents
- Absolute Stability Theory and the Synchronization Problem
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