Stabilization of DFIG-based wind turbine with active and reactive power: a coupling memory state-feedback control scheme
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Publication:6052615
DOI10.1016/J.INS.2023.119468zbMath1530.93393MaRDI QIDQ6052615
No author found.
Publication date: 22 September 2023
Published in: Information Sciences (Search for Journal in Brave)
linear matrix inequalitiescoupling methodT-S fuzzyactive and reactive powerDFIG-based wind turbinememory state-feedback control
Stabilization of systems by feedback (93D15) Fuzzy control/observation systems (93C42) Nonlinear systems in control theory (93C10)
Cites Work
- New stability and stabilization conditions for T-S fuzzy systems with time delay
- Active fault tolerant control of wind turbine systems based on DFIG with actuator fault and disturbance using Takagi-Sugeno fuzzy model
- A new multiple integral inequality and its application to stability analysis of time-delay systems
- Finite-time stability criteria of linear system with non-differentiable time-varying delay via new integral inequality
- Fuzzy logic-based integral sliding mode control of multi-area power systems integrated with wind farms
- Stabilization of permanent magnet synchronous generator-based wind turbine system via fuzzy-based sampled-data control approach
- Finite-time stabilization of T-S fuzzy semi-Markov switching systems: a coupling memory sampled-data control approach
- Stability and stabilization of T-S fuzzy systems with time-varying delays via augmented Lyapunov-Krasovskii functionals
- A new approach to generalized dissipativity analysis for fuzzy systems with coupling memory sampled-data control
- State feedback control of continuous-time T-S fuzzy systems via switched fuzzy controllers
- A new discretized Lyapunov-Krasovskii functional for stability analysis and control design of time-delayed TS fuzzy systems
- Output tracking of a non-linear non-minimum phase PVTOL aircraft based on non-linear state feedback control
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