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Identification of Linear Time-Invariant Systems: A Least Squares of Orthogonal Distances Approach

Luis Alberto Cantera-Cantera, R. Garrido, Luis Luna, Cristóbal Vargas, Erick Asiain

2023Mathematics15 citationsDOIOpen Access PDF

Abstract

This work describes the parameter identification of servo systems using the least squares of orthogonal distances method. The parameter identification problem was reconsidered as data fitting to a plane, which in turn corresponds to a nonlinear minimization problem. Three models of a servo system, having one, two, and three parameters, were experimentally identified using both the classic least squares and the least squares of orthogonal distances. The models with two and three parameters were identified through numerical routines. The servo system model with a single parameter only considered the input gain. In this particular case, the analytical conditions for finding the critical points and for determining the existence of a minimum were presented, and the estimate of the input gain was obtained by solving a simple quadratic equation whose coefficients depended on measured data. The results showed that as opposed to the least squares method, the least squares of orthogonal distances method experimentally produced consistent estimates without regard for the classic persistency-of-excitation condition. Moreover, the parameter estimates of the least squares of orthogonal distances method produced the best tracking performance when they were used to compute a trajectory-tracking controller.

Topics & Concepts

Least-squares function approximationMathematicsTotal least squaresNon-linear least squaresQuadratic equationControl theory (sociology)Nonlinear systemLinear least squaresInvariant (physics)Estimation theoryMinificationApplied mathematicsMathematical optimizationAlgorithmLinear modelComputer scienceStatisticsSingular value decompositionGeometryPhysicsQuantum mechanicsControl (management)EstimatorMathematical physicsArtificial intelligenceControl Systems and IdentificationIterative Learning Control SystemsFault Detection and Control Systems