2018 - IEEE Fellow For contributions to robust control for infinite dimensional systems
His main research concerns Control theory, Control theory, Robustness, Robust control and Multidimensional systems. His Control theory research is multidisciplinary, relying on both Algebraic Riccati equation and Order. His Control theory study combines topics from a wide range of disciplines, such as Function, Variable, Range and Rational function.
His research in Robustness intersects with topics in Basis function, Mathematical analysis and Galerkin method. His study looks at the relationship between Robust control and fields such as Frequency domain, as well as how they intersect with chemical problems. He has included themes like Computational complexity theory, Singular value decomposition and Linear system in his Multidimensional systems study.
The scientist’s investigation covers issues in Control theory, Control theory, Robust control, Robustness and Applied mathematics. Control theory and Control engineering are frequently intertwined in his study. Hitay Özbay works mostly in the field of Control theory, limiting it down to concerns involving Interpolation and, occasionally, Rational function.
His research investigates the connection between Robust control and topics such as Flow control that intersect with issues in Telecommunications network. The study incorporates disciplines such as Function, Matrix and Frequency domain in addition to Applied mathematics. His work in Optimal control covers topics such as Sensitivity which are related to areas like Distributed parameter system.
Hitay Özbay mainly focuses on Control theory, Control theory, Nonlinear system, Exponential stability and Equilibrium point. His Control theory research includes themes of Upper and lower bounds and Minification. His Control theory study focuses on Robust control in particular.
His studies deal with areas such as Dynamical systems theory and Biochemistry as well as Nonlinear system. Hitay Özbay usually deals with Exponential stability and limits it to topics linked to Piecewise and Linear matrix and Lyapunov functional. In his research on the topic of Equilibrium point, Function and Structure is strongly related with Applied mathematics.
Control theory, Exponential stability, Nonlinear system, Robust control and Robustness are his primary areas of study. In his study, Control theory is inextricably linked to Upper and lower bounds, which falls within the broad field of Control theory. His Exponential stability research integrates issues from Function, Special case, Piecewise and Stability conditions.
His studies in Nonlinear system integrate themes in fields like Dynamical system, Partial differential equation and Applied mathematics. The various areas that Hitay Özbay examines in his Robust control study include Scheduling, Nyquist stability criterion, Root locus and Automatic control. His work deals with themes such as Control engineering, Low complexity, Indirect approach and Reduced order, which intersect with Robustness.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
On the NP-hardness of solving bilinear matrix inequalities and simultaneous stabilization with static output feedback
O. Toker;H. Ozbay.
advances in computing and communications (1995)
Robust Control of Infinite Dimensional Systems: Frequency Domain Methods
C. Foias;Hitay Ozbay;Allen R. Tannenbaum;M. Thoma.
Robust control of infinite dimensional systems
Encyclopedia of systems and control (2014)
On the design of AQM supporting TCP flows using robust control theory
P.-F. Quet;H. Ozbay.
IEEE Transactions on Automatic Control (2004)
Introduction to Feedback Control Theory
Rate-based flow controllers for communication networks in the presence of uncertain time-varying multiple time-delays
Pierre-FrançOis Quet;Banu AtaşLar;Altuğ Iftar;Hitay ÖZbay.
Complexity issues in robust stability of linear delay-differential systems
Onur Toker;Hitay Özbay.
Mathematics of Control, Signals, and Systems (1996)
H/sup /spl infin// optimal and suboptimal controllers for infinite dimensional SISO plants
O. Toker;H. Ozbay.
IEEE Transactions on Automatic Control (1995)
A variable structure control approach to active queue management for TCP with ECN
Peng Yan;Yuan Gao;H. Ozbay.
IEEE Transactions on Control Systems and Technology (2005)
Stability Analysis of Switched Time Delay Systems
Peng Yan;H. Ozbay.
Siam Journal on Control and Optimization (2008)
Profile was last updated on December 6th, 2021.
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