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A trajectory-based framework for data-driven system analysis and control

Julian Berberich, Frank Allgower

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Abstract

The vector space of all input-output trajectories of a discrete-time linear time-invariant (LTI) system is spanned by time-shifts of a single measured trajectory, given that the respective input signal is persistently exciting. This fact, which was proven in the behavioral control framework, shows that a single measured trajectory can capture the full behavior of an LTI system and might therefore be used directly for system analysis and controller design, without explicitly identifying a model. In this paper, we translate the result from the behavioral context to the classical state-space control framework and we extend it to certain classes of nonlinear systems, which are linear in suitable input-output coordinates. Moreover, we show how this extension can be applied to the data-driven simulation problem, where we introduce kernel-methods to obtain a rich set of basis functions.

Topics & Concepts

TrajectoryControl theory (sociology)Controller (irrigation)Context (archaeology)Linear systemComputer scienceNonlinear systemExtension (predicate logic)Set (abstract data type)Control systemBasis (linear algebra)Nonlinear controlMathematicsLTI system theoryMultidimensional systemsHybrid systemControl (management)Time-invariant systemControl engineeringSpace (punctuation)Linear modelSystem identificationSIGNAL (programming language)Automatic controlControl Systems and IdentificationAdvanced Control Systems OptimizationFault Detection and Control Systems
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