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Article type: Research Article
Authors: Achiche, S.a; * | Shlechtingen, M.b | Raison, M.a | Baron, L.a | Santos, I.F.c
Affiliations: [a] Department of Mechanical Engineering, École Polytechnique de Montréal, Québec, Canada | [b] Department of Technical Operation Wind Offshore, EnBW Erneuerbare Energien GmbH, Germany | [c] Department of Mechanical Engineering, Section of Solid Mechanics, Technical University of Denmark, Denmark
Correspondence: [*] Corresponding author. Email: sofiane.achiche@polymtl.ca.
Abstract: This paper presents the results obtained from a research work investigating the performance of different Adaptive Neuro-Fuzzy Inference System (ANFIS) models developed to predict excitation forces on a dynamically loaded flexible structure. For this purpose, a flexible structure is equipped with acceleration transducers at each degree of freedom and a force transducer for validation and training. Two types of models were developed; the first type uses current accelerations only while the second type considers both the current accelerations and the historical values. The models are trained using data obtained from applying a random excitation force on the flexible structure. The performance of the developed models is evaluated by analyzing the prediction capabilities based on a normalized prediction error. The frequency domain is considered to analyze the similarity of the frequencies in the predicted and the original force signal. For a selection of the best models, a more advanced performance analysis is carried out. This includes application of the trained models to deterministic and non-deterministic excitation forces with different excitation frequencies and amplitudes. Additionally, the influence of the sampling frequency and sensor location on the model performance is investigated. The results obtained in this paper show that ANFIS models can be used to set up reliable force predictors for dynamical loaded flexible structures, when a certain degree of inaccuracy is accepted. Furthermore, the comparison study points out that the transducer location is crucial for the model performance. However, there exists no general solution for the final selection of models. The findings showed that the model type employing historical values gives better predictions when operating in their trained regions while the models using only current values have generally higher prediction errors in trained regions but are less sensitive to changes of the system dynamics history.
Keywords: Force prediction, ANFIS models, performance analysis, cyber physical system, mechatronics
DOI: 10.3233/jid-2015-0017
Journal: Journal of Integrated Design and Process Science, vol. 19, no. 3, pp. 77-94, 2015
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