Her main research concerns Control theory, Nonlinear system, Control engineering, Adaptive control and Internal model. Her study in Control theory, Robust control, Robustness, Control system and Actuator is done as part of Control theory. Her Exponential stability study in the realm of Nonlinear system interacts with subjects such as Minimum phase and A priori and a posteriori.
In general Control engineering study, her work on Nonlinear control often relates to the realm of Trim, thereby connecting several areas of interest. While the research belongs to areas of Adaptive control, Andrea Serrani spends her time largely on the problem of Vehicle dynamics, intersecting her research to questions surrounding Full state feedback and Servomechanism. The various areas that Andrea Serrani examines in her Internal model study include Linear system, Connection, Domain and Multidimensional systems.
Andrea Serrani mainly investigates Control theory, Nonlinear system, Control engineering, Control theory and Internal model. Her work is connected to Adaptive control, Robust control, Linear system, Robustness and Nonlinear control, as a part of Control theory. Her work carried out in the field of Robust control brings together such families of science as Observability and Motion control.
Her work on Galerkin method as part of her general Nonlinear system study is frequently connected to Minimum phase and Convergence, thereby bridging the divide between different branches of science. Her work deals with themes such as Control system, Hypersonic speed, Remotely operated underwater vehicle, Actuator and Vehicle dynamics, which intersect with Control engineering. Her study in Control theory is interdisciplinary in nature, drawing from both Optimal control and Trajectory.
Her primary scientific interests are in Control theory, Linear system, Nonlinear system, Control theory and Adaptive control. Her Control theory research is multidisciplinary, incorporating elements of Control engineering and Mathematical optimization. The Linear system study combines topics in areas such as Subspace topology, Exponential stability, Disturbance and Feed forward.
The concepts of her Nonlinear system study are interwoven with issues in Full state feedback, PID controller, Linear-quadratic-Gaussian control and Observer. Her Control theory research integrates issues from Waveform and Flapping, Wing. Her Adaptive control study incorporates themes from Throttle and Hypersonic vehicle.
Andrea Serrani mainly focuses on Control theory, Redundancy, Control engineering, Vehicle dynamics and Mathematical optimization. Her work on Internal model and Nonlinear system as part of general Control theory research is often related to Moment, thus linking different fields of science. Her biological study spans a wide range of topics, including Dynamical systems theory and Robustness.
Her work in the fields of Control engineering, such as Adaptive control and Underactuation, overlaps with other areas such as Ranging. Her work deals with themes such as Hypersonic speed, Elevator, Aerodynamics and Fuselage, which intersect with Adaptive control. Her Vehicle dynamics research incorporates elements of Robot control and Robust control.
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Control-Oriented Modeling of an Air-Breathing Hypersonic Vehicle
Jason T. Parker;Andrea Serrani;Stephen Yurkovich;Michael A. Bolender.
Journal of Guidance Control and Dynamics (2007)
Nonlinear Robust Adaptive Control of Flexible Air-Breathing Hypersonic Vehicles
Lisa Fiorentini;Andrea Serrani;Michael A. Bolender;David B. Doman.
Journal of Guidance Control and Dynamics (2009)
Semi-global nonlinear output regulation with adaptive internal model
A. Serrani;A. Isidori;L. Marconi.
IEEE Transactions on Automatic Control (2001)
Robust Autonomous Guidance: An Internal Model Approach
Alberto Isidori;Lorenzo Marconi;Andrea Serrani.
Robust nonlinear motion control of a helicopter
A. Isidori;L. Marconi;A. Serrani.
IEEE Transactions on Automatic Control (2003)
Robust Linear Output Feedback Control of an Airbreathing Hypersonic Vehicle
David O. Sigthorsson;Pete Jankovsky;Andrea Serrani;Stephen Yurkovich.
Journal of Guidance Control and Dynamics (2008)
Robust Autonomous Guidance
Alberto Isidori;Lorenzo Marconi;Andrea Serrani.
Global robust output regulation for a class of nonlinear systems
Andrea Serrani;Alberto Isidori;Alberto Isidori.
Systems & Control Letters (2000)
Autonomous vertical landing on an oscillating platform: an internal-model based approach
L. Marconi;A. Isidori;A. Serrani.
Adaptive restricted trajectory tracking for a non-minimum phase hypersonic vehicle model
Lisa Fiorentini;Andrea Serrani.
Profile was last updated on December 6th, 2021.
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