His scientific interests lie mostly in Control theory, Linear system, Control theory, Mathematical optimization and Optimal control. Anton A. Stoorvogel integrates many fields, such as Control theory and Heterogeneous network, in his works. His Linear system study incorporates themes from Control system, Discrete time and continuous time, Controllability and Algebraic Riccati equation, Riccati equation.
Anton A. Stoorvogel combines subjects such as Algebraic equation and Applied mathematics with his study of Riccati equation. His study in Mathematical optimization is interdisciplinary in nature, drawing from both Projection, Transfer function, Frequency domain and Robustness. Anton A. Stoorvogel interconnects Observer based, Nonlinear system, Norm and Order in the investigation of issues within Optimal control.
Anton A. Stoorvogel mostly deals with Control theory, Linear system, Discrete time and continuous time, Synchronization and Control theory. Anton A. Stoorvogel has researched Control theory in several fields, including State, Mathematical optimization and State. The study incorporates disciplines such as Semi global and Invertible matrix in addition to Mathematical optimization.
The various areas that he examines in his Linear system study include Control system, Exponential stability, Stability, Bounded function and Actuator. His Discrete time and continuous time research is multidisciplinary, relying on both Algebraic Riccati equation, Riccati equation and Constraint. His Algebraic Riccati equation course of study focuses on Norm and Applied mathematics.
The scientist’s investigation covers issues in Synchronization, Synchronization, Topology, Protocol and State. His Synchronization research integrates issues from Discrete time and continuous time and Control theory. His Control theory and Nonlinear system investigations are all subjects of Control theory research.
His studies deal with areas such as Transfer function and Eigenvalues and eigenvectors, Laplacian matrix as well as Topology. His research in Protocol tackles topics such as Trajectory which are related to areas like Observer. His State research incorporates themes from Transformation and Feed forward.
His primary scientific interests are in Control theory, Protocol, Synchronization, Network topology and Synchronization. His work in the fields of Control theory, such as Control theory and Nonlinear system, intersects with other areas such as Heterogeneous network. His biological study spans a wide range of topics, including State vector, Linear system, Linear-quadratic-Gaussian control and Bounded function.
His Protocol study combines topics in areas such as Telecommunications network, State and Lipschitz continuity. His research on Network topology also deals with topics like
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Control theory for linear systems
Harry L. Trentelman;Antonie Arij Stoorvogel;Malo Hautus.
The H∞ control problem
The H ∞ control problem: a state space approach
A. A. Stoorvogel.
Control of Linear Systems with Regulation and Input Constraints
Ali Saberi;Peddapullaiah Sannuti;Anton Stoorvogel.
The robust H/sub 2/ control problem: a worst-case design
IEEE Transactions on Automatic Control (1993)
Output regulation for linear systems subject to input saturation
Zongli Lin;Anton A. Stoorvogel;Ali Saberi.
Output synchronization for heterogeneous networks of non-introspective agents
Håvard Fjær Grip;Tao Yang;Ali Saberi;Anton A. Stoorvogel.
Fundamental problems in fault detection and identification
A Ali Saberi;AA Anton Stoorvogel;P Peddapullaiah Sannuti;HH Niemann.
International Journal of Robust and Nonlinear Control (2000)
Semiglobal stabilization of linear discrete-time systems subject to input saturation, via linear feedback-an ARE-based approach
Zongli Lin;A. Saberi;A.A. Stoorvogel.
IEEE Transactions on Automatic Control (1996)
Editorial (Special issue on control problems with constraints)
AA Anton Stoorvogel;A Ali Saberi.
International Journal of Robust and Nonlinear Control (1999)
Profile was last updated on December 6th, 2021.
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