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Disturbance attenuation in LTI plants with finite horizon: Optimality of nonlinear controllers
Tamer Başar
Electrical and Computer Engineering
Coordinated Science Lab
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peer-review
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Dive into the research topics of 'Disturbance attenuation in LTI plants with finite horizon: Optimality of nonlinear controllers'. Together they form a unique fingerprint.
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Keyphrases
Minimax
100%
Controller
100%
Linear Time Invariant
100%
Disturbance Attenuation
100%
Linear Controller
100%
Nonlinear Controller
100%
Model Matching
50%
Infinite Horizon
50%
Dynamic Games
50%
Worst-case Disturbance
50%
Differential Dynamics
50%
Disturbance Rejection
50%
Linear Design
50%
Disturbance Energy
50%
Input-output Operator
50%
Optimal Nonlinear Controller
50%
Tracking Model
50%
Engineering
Optimality
100%
Linear Time Invariant
100%
Linear Controller
100%
Finite Horizon
100%
Energy Engineering
50%
Time Domain
50%
Matching Model
50%
Disturbance Model
50%