2014 - Fellow of the International Federation of Automatic Control (IFAC)
2001 - IEEE Fellow For contributions to the analysis, design and implementation of adaptive systems.
His primary scientific interests are in Control theory, Adaptive control, Nonlinear system, Stability and Control engineering. His Control theory study combines topics from a wide range of disciplines, such as Mathematical optimization and Stability. His Adaptive control research incorporates themes from Iterative method, Process, Adaptive system and Signal processing.
His Nonlinear system study integrates concerns from other disciplines, such as Control system, Dynamical system, Bounded function, Particle filter and Signal. In his work, Lyapunov exponent is strongly intertwined with Inverse dynamics, which is a subfield of Stability. His research investigates the connection between Control engineering and topics such as Control that intersect with issues in Key and Iterated function.
Iven Mareels mainly focuses on Control theory, Nonlinear system, Adaptive control, Control engineering and Control theory. His Control theory research is multidisciplinary, incorporating perspectives in Control and Stability. His research integrates issues of Stability and Discrete time and continuous time in his study of Nonlinear system.
His research in Adaptive control intersects with topics in Adaptive algorithm, Bounded function, Adaptive system and Robust control. His Control theory research is multidisciplinary, relying on both Mathematical optimization and Optimal control. His Mathematical optimization study frequently draws connections to other fields, such as Convergence.
Control theory, Grid, Nonlinear system, Stability and Photovoltaic system are his primary areas of study. Iven Mareels has researched Control theory in several fields, including Voltage droop and Inverter. The study incorporates disciplines such as Low voltage, Peak demand, Simulation and Renewable energy in addition to Grid.
His Nonlinear system research incorporates elements of Bounded function, Linear system, Observability and Trajectory. His work in Stability tackles topics such as Power which are related to areas like Communication channel. His Photovoltaic system research focuses on Bifurcation and how it relates to Current, Inertia, Reduction, Voltage source and Epilepsy.
Iven Mareels mostly deals with Control theory, Grid, Electric vehicle, Stability and Voltage. Iven Mareels studies Control theory, namely Optimal control. His studies deal with areas such as Peak demand, Telecommunications, Electrical impedance and Low voltage as well as Grid.
His Electric vehicle study which covers Voltage drop that intersects with Distribution networks, Data modeling, Linear approximation, Voltage stability and Load management. His studies examine the connections between Stability and genetics, as well as such issues in Distributed generation, with regards to Transmission. Iven Mareels has included themes like Control engineering, Greedy algorithm, Electric power system and Electric power in his Voltage study.
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Putting energy back in control
R. Ortega;A.J. Van Der Schaft;I. Mareels;B. Maschke.
IEEE Control Systems Magazine (2001)
An observer looks at synchronization
H. Nijmeijer;I.M.Y. Mareels.
IEEE Transactions on Circuits and Systems I-regular Papers (1997)
Stability of adaptive systems: passivity and averaging analysis
Brian D. O. Anderson;Robert R. Bitmead;C. Richard Johnson;Petar V. Kokotovic.
Stability of adaptive systems: passivity and averaging analysis (1986)
On non-local stability properties of extremum seeking control
Ying Tan;Dragan Nešić;Iven Mareels.
A Lyapunov formulation of the nonlinear small-gain theorem for interconnected ISS systems
Zhong-Ping Jiang;Iven M. Y. Mareels;Yuan Wang.
Topological feedback entropy and Nonlinear stabilization
G.N. Nair;R.J. Evans;I.M.Y. Mareels;W. Moran.
IEEE Transactions on Automatic Control (2004)
Extremum seeking from 1922 to 2010
Y. Tan;W.H. Moase;C. Manzie;D. Nesic.
chinese control conference (2010)
Stability theory for differential/algebraic systems with application to power systems
D.J. Hill;I.M.Y. Mareels.
IEEE Transactions on Circuits and Systems (1990)
A small-gain control method for nonlinear cascaded systems with dynamic uncertainties
Zhong-Ping Jiang;I.M.Y. Marcels.
IEEE Transactions on Automatic Control (1997)
Control of Large-Scale Irrigation Networks
M. Cantoni;E. Weyer;Yuping Li;Su Ki Ooi.
Proceedings of the IEEE (2007)
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