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Learning Koopman Operator under Dissipativity Constraints

K. Hara, Masaki Inoue, Noboru Sebe

2020IFAC-PapersOnLine15 citationsDOIOpen Access PDF

Abstract

This paper addresses a learning problem for nonlinear dynamical systems with incorporating any specified dissipativity property. The nonlinear systems are described by the Koopman operator, which is a linear operator defined on the infinite-dimensional lifted state space. The problem of learning the Koopman operator under specified quadratic dissipativity constraints is formulated and addressed. The learning problem is in a class of the non-convex optimization problem due to nonlinear constraints and is numerically intractable. By applying the change of variable technique and the convex overbounding approximation, the problem is reduced to sequential convex optimization and is solved in a numerically efficient manner. Finally, a numerical simulation is given, where high modeling accuracy achieved by the proposed approach including the specified dissipativity is demonstrated.

Topics & Concepts

Operator (biology)MathematicsNonlinear systemMathematical optimizationQuadratic equationConvex optimizationRegular polygonApplied mathematicsOptimization problemProperty (philosophy)RepressorBiochemistryQuantum mechanicsGeometryEpistemologyTranscription factorGenePhysicsChemistryPhilosophyModel Reduction and Neural NetworksProbabilistic and Robust Engineering DesignControl Systems and Identification