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Modelling of non-minimum-phase effects in discrete-time norm-optimal iterative learning control

Modelling of non-minimum-phase effects in discrete-time norm-optimal iterative learning control
Modelling of non-minimum-phase effects in discrete-time norm-optimal iterative learning control
The subject of this article is the modelling of the influence of non-minimum phase discrete-time system dynamics on the performance of norm optimal iterative learning control (NOILC) algorithms with the intent of explaining the observed phenomenon and predicting its primary characteristics. It is established that performance in the presence of one or more non-minimum phase plant zeros typically has two phases. These consist of an initial fast monotonic reduction of the L 2 error norm (mean square error) followed by a very slow asymptotic convergence. Although the norm of the tracking error does eventually converge to zero, the practical implications over a finite number of trials is apparent convergence to a non-zero error. The source of this slow convergence is identified using the singular value distribution of the system's all pass component. A predictive model of the onset of slow convergence behaviour is developed as a set of linear constraints and shown to be valid when the iteration time interval is sufficiently long. The results provide a good prediction of the magnitude of error norm where slow convergence begins. Formulae for this norm and associated error time series are obtained for single-input single-output systems with several non-minimum phase zeros outside the unit circle using Lagrangian techniques. Numerical simulations are given to confirm the validity of the analysis.
iterative learning control, non-minimum phase systems, singular value decomposition, all pass systems
0020-3270
2012-2027
Owens, David
0d0eb9da-c362-457d-841f-3094a18120ee
Chu, Bing
555a86a5-0198-4242-8525-3492349d4f0f
Owens, David
0d0eb9da-c362-457d-841f-3094a18120ee
Chu, Bing
555a86a5-0198-4242-8525-3492349d4f0f

Owens, David and Chu, Bing (2010) Modelling of non-minimum-phase effects in discrete-time norm-optimal iterative learning control. International Journal of Control, 83 (10), 2012-2027. (doi:10.1080/00207179.2010.501458).

Record type: Article

Abstract

The subject of this article is the modelling of the influence of non-minimum phase discrete-time system dynamics on the performance of norm optimal iterative learning control (NOILC) algorithms with the intent of explaining the observed phenomenon and predicting its primary characteristics. It is established that performance in the presence of one or more non-minimum phase plant zeros typically has two phases. These consist of an initial fast monotonic reduction of the L 2 error norm (mean square error) followed by a very slow asymptotic convergence. Although the norm of the tracking error does eventually converge to zero, the practical implications over a finite number of trials is apparent convergence to a non-zero error. The source of this slow convergence is identified using the singular value distribution of the system's all pass component. A predictive model of the onset of slow convergence behaviour is developed as a set of linear constraints and shown to be valid when the iteration time interval is sufficiently long. The results provide a good prediction of the magnitude of error norm where slow convergence begins. Formulae for this norm and associated error time series are obtained for single-input single-output systems with several non-minimum phase zeros outside the unit circle using Lagrangian techniques. Numerical simulations are given to confirm the validity of the analysis.

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More information

e-pub ahead of print date: 31 August 2010
Published date: October 2010
Keywords: iterative learning control, non-minimum phase systems, singular value decomposition, all pass systems
Organisations: Southampton Wireless Group
Learn more about Southampton Wireless Group research

Identifiers

Local EPrints ID: 336249
URI: http://eprints.soton.ac.uk/id/eprint/336249
DOI: doi:10.1080/00207179.2010.501458
ISSN: 0020-3270
PURE UUID: 924af039-60a5-43c7-a78e-232da3986e21
ORCID for Bing Chu: ORCID iD orcid.org/0000-0002-2711-8717

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Date deposited: 20 Mar 2012 17:17
Last modified: 15 Mar 2024 03:42

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Contributors

Author: David Owens
Author: Bing Chu ORCID iD

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