His primary scientific interests are in Control theory, Control engineering, Wind power, Turbine and Control theory. Control theory and Fault are frequently intertwined in his study. His Control engineering research includes themes of Fault tolerance, Control system, Control reconfiguration and Stuck-at fault.
His studies examine the connections between Wind power and genetics, as well as such issues in Observer based, with regards to Support vector machine and Competition. His study in Turbine is interdisciplinary in nature, drawing from both Aerodynamics, Torque, Reliability and Fault detection and isolation. As a part of the same scientific family, Jakob Stoustrup mostly works in the field of Control theory, focusing on Trajectory and, on occasion, Machine control.
Jakob Stoustrup mainly focuses on Control theory, Control engineering, Control theory, Control and Control system. His research investigates the connection with Control theory and areas like Fault detection and isolation which intersect with concerns in Turbine. The various areas that he examines in his Turbine study include Power, Automotive engineering and Torque.
His study focuses on the intersection of Control engineering and fields such as Model predictive control with connections in the field of Smart grid. His research integrates issues of Observer and Multivariable calculus in his study of Control theory. His Control system research is multidisciplinary, incorporating perspectives in Optimal control and Automatic control.
His primary areas of study are Smart grid, Control theory, Control theory, Control engineering and Control. His Smart grid study integrates concerns from other disciplines, such as Distributed computing, Simulation, Model predictive control and News aggregator. His Control theory study incorporates themes from Turbine, Wind power and Fault detection and isolation.
His study in Fault detection and isolation is interdisciplinary in nature, drawing from both Fault tolerance, Control system and Condition monitoring. The Adaptive control research Jakob Stoustrup does as part of his general Control theory study is frequently linked to other disciplines of science, such as Chiller, therefore creating a link between diverse domains of science. The study incorporates disciplines such as Energy consumption, Supervisory control, Refrigeration and Benchmark in addition to Control engineering.
Jakob Stoustrup mostly deals with Smart grid, Control theory, Control engineering, Control theory and Wind power. His Control theory research incorporates elements of Power, Energy, Actuator and Nonlinear system. His work carried out in the field of Control engineering brings together such families of science as Induction motor, Block, Discrete time and continuous time and Control reconfiguration.
The concepts of his Control theory study are interwoven with issues in Radiator and Volumetric flow rate. His work deals with themes such as Turbine, Derating and Power control, which intersect with Wind power. Jakob Stoustrup studied Turbine and Fault detection and isolation that intersect with Benchmark, Focus and Robust control.
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Fault-Tolerant Control of Wind Turbines: A Benchmark Model
P. F. Odgaard;J. Stoustrup;M. Kinnaert.
IEEE Transactions on Control Systems and Technology (2013)
Estimation of effective wind speed
Kasper Zinck Østergaard;Per Brath;Jakob Stoustrup.
Journal of Physics: Conference Series (2007)
Robust and fault-tolerant linear parameter-varying control of wind turbines
Christoffer Sloth;Thomas Esbensen;Jakob Stoustrup.
Plug & play control: Control technology towards new challenges
european control conference (2009)
Passive fault tolerant control of a double inverted pendulum—a case study
Hans Henrik Niemann;Jakob Stoustrup.
Control Engineering Practice (2003)
Linear parameter varying control of wind turbines covering both partial load and full load conditions
Kasper Zinck Østergaard;Jakob Stoustrup;Per Brath.
International Journal of Robust and Nonlinear Control (2009)
Robust performance of systems with structured uncertainties in state space
Kemin Zhou;Pramod P. Khargonekar;Jakob Stoustrup;Hans Henrik Niemann.
Design of integrated systems for the control and detection of actuator/sensor faults
Jakob Stoustrup;M.J. Grimble;Henrik Niemann.
Sensor Review (1997)
Unknown input observer based detection of sensor faults in a wind turbine
Peter F. Odgaard;Jakob Stoustrup.
international conference on control applications (2010)
Fault tolerant control: a simultaneous stabilization result
J. Stoustrup;V.D. Blondel.
IEEE Transactions on Automatic Control (2004)
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