An Unstructured Flexible Nonlinear Model for the Cascaded Water-Tanks Benchmark

Rishi Relan; Koen Tiels; Anna Marconato; Joannes Schoukens

An Unstructured Flexible Nonlinear Model for the Cascaded Water-Tanks Benchmark

Rishi Relan, Koen Tiels, Anna Marconato, Joannes Schoukens

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12 Citaten (Scopus)

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Many real world systems exhibit a quasi linear or weakly nonlinear behavior during normal operation, and a hard saturation effect for high peaks of the input signal. A typical example of such systems is the cascaded water-tanks benchmark. This benchmark combines soft and hard nonlinearities to be identified based on relatively short data records. In this paper, a methodology to identify an unstructured flexible nonlinear state space model (NLSS) for the cascaded water-tanks benchmark is proposed. The flexibility of the NLSS model structure is demonstrated by introducing two different initialisation schemes. Furthermore the strengths and short-comings of the model structure are discussed with respect to the cascaded water-benchmark identification problem.

Originele taal-2	English
Pagina's (van-tot)	452-457
Tijdschrift	IFAC-PapersOnLine
Volume	50
Nummer van het tijdschrift	1
Status	Published - 9 jul 2017
Evenement	20th IFAC International World Congress - Toulouse, France Duur: 9 jul 2017 → 14 jul 2017 https://www.ifac2017.org/

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https://www.researchgate.net/publication/316240877_An_Unstructured_Flexible_Nonlinear_Model_for_the_Cascaded_Water-tanks_Benchmark

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abstract = "Many real world systems exhibit a quasi linear or weakly nonlinear behavior during normal operation, and a hard saturation effect for high peaks of the input signal. A typical example of such systems is the cascaded water-tanks benchmark. This benchmark combines soft and hard nonlinearities to be identified based on relatively short data records. In this paper, a methodology to identify an unstructured flexible nonlinear state space model (NLSS) for the cascaded water-tanks benchmark is proposed. The flexibility of the NLSS model structure is demonstrated by introducing two different initialisation schemes. Furthermore the strengths and short-comings of the model structure are discussed with respect to the cascaded water-benchmark identification problem.",

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T1 - An Unstructured Flexible Nonlinear Model for the Cascaded Water-Tanks Benchmark

AU - Relan, Rishi

AU - Tiels, Koen

AU - Marconato, Anna

AU - Schoukens, Joannes

PY - 2017/7/9

Y1 - 2017/7/9

N2 - Many real world systems exhibit a quasi linear or weakly nonlinear behavior during normal operation, and a hard saturation effect for high peaks of the input signal. A typical example of such systems is the cascaded water-tanks benchmark. This benchmark combines soft and hard nonlinearities to be identified based on relatively short data records. In this paper, a methodology to identify an unstructured flexible nonlinear state space model (NLSS) for the cascaded water-tanks benchmark is proposed. The flexibility of the NLSS model structure is demonstrated by introducing two different initialisation schemes. Furthermore the strengths and short-comings of the model structure are discussed with respect to the cascaded water-benchmark identification problem.

AB - Many real world systems exhibit a quasi linear or weakly nonlinear behavior during normal operation, and a hard saturation effect for high peaks of the input signal. A typical example of such systems is the cascaded water-tanks benchmark. This benchmark combines soft and hard nonlinearities to be identified based on relatively short data records. In this paper, a methodology to identify an unstructured flexible nonlinear state space model (NLSS) for the cascaded water-tanks benchmark is proposed. The flexibility of the NLSS model structure is demonstrated by introducing two different initialisation schemes. Furthermore the strengths and short-comings of the model structure are discussed with respect to the cascaded water-benchmark identification problem.

KW - Nonlinear system identification

KW - Frequency domain identification

KW - Nonparametric methods

M3 - Conference paper

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SP - 452

EP - 457

JO - IFAC-PapersOnLine

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IS - 1

T2 - 20th IFAC International World Congress

Y2 - 9 July 2017 through 14 July 2017

ER -

An Unstructured Flexible Nonlinear Model for the Cascaded Water-Tanks Benchmark

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