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Well-posedness and controllability of a wind turbine tower model
Xiaowei Zhao
*
,
George Weiss
*
Corresponding author for this work
Department of Electrical Engineering - Systems
University of Oxford
Research output
:
Contribution to journal
›
Article
›
peer-review
16
Scopus citations
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Keyphrases
Well-posedness
100%
Wind Turbine Tower
100%
Tower Model
100%
State Space
66%
Torque Control
66%
Nacelle
66%
Exact Controllability
66%
Driving Simulator
33%
Electrically Driven
33%
Rigid Body
33%
Finite-dimensional
33%
Infinite Dimension
33%
Control Input
33%
Energy State
33%
Well-posed
33%
Euler-Bernoulli Beam
33%
Two-mass Drive Train
33%
Force Control
33%
Turbine Blade
33%
Electrical Generator
33%
Coupled Linear Systems
33%
Gearbox
33%
Engineering
Posedness
100%
Compressed Air Motors
100%
Controllability
100%
Tower
100%
Control Input
20%
Energy State
20%
Time (T)
20%
Rigid Structure
20%
Blade Turbine
20%
Bernoulli Beam
20%
Gearbox
20%
Mathematics
Posedness
100%
Nonuniform
50%
Linear System
50%
Energy State
50%
Rigid Body
50%
Physics
Controllability
100%
Compressed Air Motors
100%
Linear Systems
33%
Rigid Structure
33%
Euler-Bernoulli Beams
33%