Identification of continuous systems - Practical issues of insensitivity to perturbations - Publication - Bridge of Knowledge

Your account

login

Search

Identification of continuous systems - Practical issues of insensitivity to perturbations

Abstract

In this paper the issue of continuous systems estimation, insensitive to certain perturbations, is discussed. Such an approach has rational advantages, especially when robust schemes are used to assist a target system responsible for industrial diagnostics. This requires that estimated model parameters are generated on-line, and their values are reliable and to a great extent accurate. Practical hints are suggested to challenge the consistency problem of estimates. In particular, the technique of instrumental variables can improve the asymptotic behavior of estimators. With a weighting mechanism, in turn, tracking the time-varying parameters of non-stationary processes is realistic. Yet, evident insensitivity to destructive outliers in the measurement data follows from the implemented estimation routine in the sense of the least sum of absolute errors. Finally, premises for a proper selection of excitation signals, as well as the directions of further research summarize the paper.

Citations

  • 2

    CrossRef

  • 0

    Web of Science

  • 0

    Scopus

Authors (2)

Cite as

Full text

download paper
downloaded 14 times
Publication version
Accepted or Published Version
License
Copyright (Springer International Publishing AG 2018)

Keywords

Details

Category:
Conference activity
Type:
publikacja w wydawnictwie zbiorowym recenzowanym (także w materiałach konferencyjnych)
Title of issue:
13th International Conf. on Diagnostics of Processes and Systems strony 1 - 12
Language:
English
Publication year:
2017
Bibliographic description:
Kozłowski J., Kowalczuk Z.: Identification of continuous systems - Practical issues of insensitivity to perturbations// 13th International Conf. on Diagnostics of Processes and Systems/ ed. J.M. Kościelny, M. Syfert, A. Sztyber Warszawa: , 2017, s.1-12
DOI:
Digital Object Identifier (open in new tab) 10.1007/978-3-319-64474-5_15
Bibliography: test
  1. Identification of non-linear models: Existing methods are often dedicated for prac- tical industrial applications. In the literature, the Hartley modulating functions sub- ject to Hammerstein models are usually considered. For some models (differential equations with non-linear static parts, for instance), a dedicated solution involving a simple Taylor's approximation can be sufficiently effective [5]. open in new tab
  2. Janiszowski, K.: To estimation in the sense of the least sum of absolute errors. In: 5th In- ternational Symposium on Methods and Models in Automation and Robotics, Międzyz- droje, Poland, vol. 2, pp. 583-588 (1998) open in new tab
  3. Kowalczuk, Z.: Discrete approximation of continuous-time systems -a survey. In: IEE Proceedings-G, Circuits, Devices and Systems, vol. 140, pp. 264-278 (1993) open in new tab
  4. Kowalczuk, Z., Kozłowski, J.: Continuous-time approaches to identification of continu- ous-time systems. Automatica 36, 1229-1236 (2000). doi: 10.1016/S0005-1098(00)00033- 9 open in new tab
  5. Kowalczuk, Z., Kozłowski, J.: Non-quadratic quality criteria in parameter estimation of continuous-time models. IET Control Theory and Applications 5, 1494-1508 (2011). doi: 10.1049/iet-cta.2010.0310 open in new tab
  6. Kozłowski, J., Kowalczuk, Z.: Robust to measurement faults, parameter estimation algori- thms in problems of systems diagnostics (In Polish: Odporne na przekłamania pomiarowe algorytmy estymacji parametrycznej w zagadnieniach diagnostyki systemów). In: Kowalczuk, Z., and Wiszniewski, B. (eds.) Intelligent information extraction for diagnos- tic purposes, pp. 221-240. Pomeranian Science and Technology Publishers, Gdańsk (2007)
  7. Kozłowski, J., Kowalczuk, Z.: Continuous-time delay system identification insensitive to measurement faults. In Kowalczuk, Z. (ed.) Diagnosis of Processes and Systems, pp. 177- 184. Pomeranian Science and Technology Publishers, Gdańsk (2009)
  8. Kozłowski, J., Kowalczuk, Z.: On-line parameter and delay estimation of continuous-time dynamic systems. Int. J. Appl. Math. Comput. Sci. 25, 223-232 (2015). doi: 10.1515/amcs-2015-0017 open in new tab
  9. Ljung, L.: System identification. Theory for the user. Prentice-Hall Inc., Englewood Cliffs, New Jersey, USA (1987)
  10. Sagara, S., Zhao, Z.Y.: Identification of system parameters in distributed parameter sys- tems. In: 11th IFAC Triennial World Congress, Tallin, Estonia, pp. 471-476 (1990) open in new tab
  11. Sagara, S., Zhao, Z.Y.: Numerical integration approach to on-line identification of con- tinuous-time systems. Automatica 26, 63-74 (1990). doi: 10.1016/0005-1098(90)90158-E open in new tab
  12. Söderström, T., Fan, H., Carlsson, B., Bigi, S.: Least squares parameter estimation of con- tinuous-time ARX models from discrete-time data. IEEE Trans. On Automatic Control 42, 659-673 (1997). doi: 10.1109/9.580871 open in new tab
  13. Söderström, T., Stoica, P.: Comparison of some instrumental variable methods -consis- tency and accuracy aspects. Automatica 17, 101-115 (1981). doi: 10.1016/0005- 1098(81)90087-X open in new tab
Verified by:
Gdańsk University of Technology

seen 86 times

Recommended for you

Comparative study of learning methods for artificial network

2007

Metoda sumy mocy strat jako sposób określania współczynników ki strat energetycznych występujących w silniku hydraulicznym.

2015

Adaptacyjna identyfikacja ciagłoczasowych modeli procesów niestacjonarnych z uwzględnieniem przekłamań pomiarowych.

2005

Efficient implementation of the Cauchy method for automated CAD-model construction.

2003
Meta Tags