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Nonlinear Finite-Horizon Regulation and Tracking for Systems with Incomplete State Information Using Differential State Dependent Riccati Equation
Ahmed Khamis
, D. Subbaram Naidu
, Ahmed M. Kamel
Electrical Engineering
Research output
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Contribution to journal
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Article
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peer-review
8
Scopus citations
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Dive into the research topics of 'Nonlinear Finite-Horizon Regulation and Tracking for Systems with Incomplete State Information Using Differential State Dependent Riccati Equation'. Together they form a unique fingerprint.
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Keyphrases
Differential State
100%
Filtering Algorithm
50%
Finite Horizon Problem
50%
Finite-Horizon State Dependent Riccati Equation
50%
Horizon Control
50%
Horizon Estimation
50%
Linearized System
50%
Missile Guidance System
50%
Nonlinear Regulator
50%
Nonlinear Stochastic Systems
50%
Nonlinear Tracking Problem
50%
Online Methods
50%
Operating Point
50%
Regulator Problem
50%
State Information
100%
State-dependent Riccati Equation
100%
State-dependent Riccati Equation Technique
50%
Stochastic Problems
50%
Stochastic Regulator
50%
Stochastic Tracking
50%
Engineering
Filtering Algorithm
25%
Finite Horizon
100%
Guidance System
25%
Illustrates
25%
Linearized System
25%
Missile Guidance
25%
Operating Point
25%
Riccati Equation
100%
Simulation Result
25%
State Information
100%
Stochastic System
25%