Identification of Nonlinear Cascade Systems with Time-Varying Backlash

Vörös, Jozef

doi:10.2478/v10187-011-0014-2

Cited by 18 publications

(10 citation statements)

References 39 publications

(25 reference statements)

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“…By the iterative technique, Liu and Bai [15] discussed a least squares estimation algorithm for a Hammerstein system. Based on the key term separation principle, Vörös [16], [17] studied an appropriate switching function to model Hammerstein systems with multisegment piecewiselinear characteristics and with backlash nonlinearity. Using the hierarchical identification principle, Wang et al [18] presented a hierarchical least squares algorithm for a Hammerstein state space system.…”

Section: Introductionmentioning

confidence: 99%

“…2) Based on the polynomial transformation technique and the key term separation principle [16], [17], this brief transforms the Hammerstein CARMA system into a linear dual-rate identification model, i.e., the output is linear about only one parameter vector, and presents a key term separation based least squares algorithm to estimate the parameter vector of the linear dual-rate model. The two proposed methods possess higher computational efficiency compared with the previous over-parameterization least squares method [21], which needs to compute the redundant parameter products between the parameters of the nonlinear block and the linear block, and separate parameters from their products.…”

Section: Introductionmentioning

confidence: 99%

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Highly Efficient Identification Methods for Dual-Rate Hammerstein Systems

Wang

Liu

Ding

2015

IEEE Trans. Contr. Syst. Technol.

103

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This brief concerns parameter identification for a dual-rate Hammerstein CARMA system. By combining the polynomial transformation technique and the hierarchical identification principle, this brief transforms a dual-rate nonlinear Hammerstein CARMA system into a bilinear dual-rate identification model, and presents a hierarchical least squares algorithm to estimate the parameter vectors of the bilinear dual-rate identification model. Moreover, by using the key term separation principle, this brief transforms the dual-rate nonlinear Hammerstein CARMA system into a linear dual-rate identification model, and presents a key term separation based least squares algorithm to estimate the parameter vector of the linear dual-rate identification model. The two proposed methods possess higher computational efficiency compared with the previous over-parameterization least squares method in which many redundant parameters need estimating. The simulation results show the effectiveness of the two proposed algorithms.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Highly Efficient Identification Methods for Dual-Rate Hammerstein Systems

Wang

Liu

Ding

2015

IEEE Trans. Contr. Syst. Technol.

103

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“…In previous applications, Hammerstein systems with a two-segment piecewise-linear nonlinearity have been studied in [12], and an extension to a discontinuous two-segment piecewise-linearity with preloads and dead-zones nonlinearity was discussed [12]. Vörös extended the key variable separation identification method for a Hammerstein system with a two-segment piecewise-linear nonlinearity [13] to a Hammerstein system with a multi-segment piecewise-linear characteristic [14] and with a time-varying backlash [15]. This paper deal with dual-rate Hammerstein systems with a two-segment piecewise-linear nonlinearity in cascade with a linear dynamic system.…”

Section: Introductionmentioning

confidence: 99%

Identification of Dual-Rate Sampled Hammerstein Systems with a Piecewise-Linear Nonlinearity Using the Key Variable Separation Technique

Wang

2015

Algorithms

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Abstract:The identification difficulties for a dual-rate Hammerstein system lie in two aspects. First, the identification model of the system contains the products of the parameters of the nonlinear block and the linear block, and a standard least squares method cannot be directly applied to the model; second, the traditional single-rate discrete-time Hammerstein model cannot be used as the identification model for the dual-rate sampled system. In order to solve these problems, by combining the polynomial transformation technique with the key variable separation technique, this paper converts the Hammerstein system into a dual-rate linear regression model about all parameters (linear-in-parameter model) and proposes a recursive least squares algorithm to estimate the parameters of the dual-rate system. The simulation results verify the effectiveness of the proposed algorithm.

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“…There are some contributions in the literature on the identification of systems with backlash, however it is assumed that the backlash is "straight" ie, straight lines approximate the upward and downward curves of the characteristic; see eg [3][4][5][6][7][8][9]. This simplifies the system description, however, in some cases it leads to inaccuracies.…”

Section: Introductionmentioning

confidence: 99%

Modeling and Identification of Nonlinear Cascade and Sandwich Systems with General Backlash

Vörös

2014

Journal of Electrical Engineering

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The paper deals with modeling and identification of nonlinear cascade and sandwich systems including general backlash, where instead of the straight lines determining the upward and downward parts of backlash characteristic, general curves are considered. This enables more precise modeling of mechanical parts and improves the performance of control systems. The analytical description of the general backlash leads to mathematical models of the cascade system with output general backlash and the sandwich system with internal general backlash, where all the model parameters are separated. Hence, the identification is solved as a quasi-linear problem. Iterative algorithms with internal variables estimation are proposed and illustrative examples are included.

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Identification of Nonlinear Cascade Systems with Time-Varying Backlash

Cited by 18 publications

References 39 publications

Highly Efficient Identification Methods for Dual-Rate Hammerstein Systems

Highly Efficient Identification Methods for Dual-Rate Hammerstein Systems

Identification of Dual-Rate Sampled Hammerstein Systems with a Piecewise-Linear Nonlinearity Using the Key Variable Separation Technique

Modeling and Identification of Nonlinear Cascade and Sandwich Systems with General Backlash

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