Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models

Application to random vibration modelling and analysis for an operating wind turbine

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsForskning

Resumé

Generalized Stochastic Constraint Time-dependent ARMA (GSC-TARMA) models utilize stochastic representations for the time-evolution of their parameters and constitute effective representations for many non-stationary signals. This is especially so for signals obtained from systems characterized by stochastic evolution of their underlying dynamics. Yet, the estimation of GSC models via Maximum Likelihood type methods is generally cumbersome and complicated. In this study a Bayesian method employing Markov Chain Monte Carlo schemes is postulated. The method is applied to the modelling of wind turbine non-stationary random vibration under normal operating conditions. The use of GSC models for this application is motivated by the random fluctuations in the turbine's speed, as well as the stochastic non-stationary nature of the aerodynamic phenomena. The method is shown to yield good modelling accuracy and flexibility.
OriginalsprogEngelsk
TitelProceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics
ForlagISMA
Publikationsdato2016
Sider4153-4167
StatusUdgivet - 2016
Udgivet eksterntJa
Begivenhed27th International Conference on Noise and Vibration Engineering, ISMA 2016 and International Conference on Uncertainty in Structural Dynamics, USD2016 - Leuven, Belgien
Varighed: 19. sep. 201621. sep. 2019

Konference

Konference27th International Conference on Noise and Vibration Engineering, ISMA 2016 and International Conference on Uncertainty in Structural Dynamics, USD2016
LandBelgien
ByLeuven
Periode19/09/201621/09/2019

Fingeraftryk

Wind turbines
Markov processes
Stochastic models
Maximum likelihood
Aerodynamics
Turbines

Citer dette

Avendaño-Valencia, L. D., & Fassois, S. D. (2016). Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models: Application to random vibration modelling and analysis for an operating wind turbine. I Proceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics (s. 4153-4167). ISMA.
Avendaño-Valencia, L.D. ; Fassois, S.D. / Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models : Application to random vibration modelling and analysis for an operating wind turbine. Proceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics. ISMA, 2016. s. 4153-4167
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title = "Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models: Application to random vibration modelling and analysis for an operating wind turbine",
abstract = "Generalized Stochastic Constraint Time-dependent ARMA (GSC-TARMA) models utilize stochastic representations for the time-evolution of their parameters and constitute effective representations for many non-stationary signals. This is especially so for signals obtained from systems characterized by stochastic evolution of their underlying dynamics. Yet, the estimation of GSC models via Maximum Likelihood type methods is generally cumbersome and complicated. In this study a Bayesian method employing Markov Chain Monte Carlo schemes is postulated. The method is applied to the modelling of wind turbine non-stationary random vibration under normal operating conditions. The use of GSC models for this application is motivated by the random fluctuations in the turbine's speed, as well as the stochastic non-stationary nature of the aerodynamic phenomena. The method is shown to yield good modelling accuracy and flexibility.",
author = "L.D. Avenda{\~n}o-Valencia and S.D. Fassois",
year = "2016",
language = "English",
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booktitle = "Proceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics",
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Avendaño-Valencia, LD & Fassois, SD 2016, Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models: Application to random vibration modelling and analysis for an operating wind turbine. i Proceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics. ISMA, s. 4153-4167, 27th International Conference on Noise and Vibration Engineering, ISMA 2016 and International Conference on Uncertainty in Structural Dynamics, USD2016, Leuven, Belgien, 19/09/2016.

Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models : Application to random vibration modelling and analysis for an operating wind turbine. / Avendaño-Valencia, L.D.; Fassois, S.D.

Proceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics. ISMA, 2016. s. 4153-4167.

Publikation: Bidrag til bog/antologi/rapport/konference-proceedingKonferencebidrag i proceedingsForskning

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AB - Generalized Stochastic Constraint Time-dependent ARMA (GSC-TARMA) models utilize stochastic representations for the time-evolution of their parameters and constitute effective representations for many non-stationary signals. This is especially so for signals obtained from systems characterized by stochastic evolution of their underlying dynamics. Yet, the estimation of GSC models via Maximum Likelihood type methods is generally cumbersome and complicated. In this study a Bayesian method employing Markov Chain Monte Carlo schemes is postulated. The method is applied to the modelling of wind turbine non-stationary random vibration under normal operating conditions. The use of GSC models for this application is motivated by the random fluctuations in the turbine's speed, as well as the stochastic non-stationary nature of the aerodynamic phenomena. The method is shown to yield good modelling accuracy and flexibility.

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Avendaño-Valencia LD, Fassois SD. Markov Chain Monte Carlo estimation of non-stationary GSC-TARMA models: Application to random vibration modelling and analysis for an operating wind turbine. I Proceedings of ISMA 2016 - International Conference on Noise and Vibration Engineering and USD2016 - International Conference on Uncertainty in Structural Dynamics. ISMA. 2016. s. 4153-4167