Colon, D., Kaczmarczyk, S. and Balthazar, J. (2016) The application of a polynomial chaos approach to the vibration analysis of an elevator system. In: Rade, D. A. and Lima, A. M. G. (eds.) Proceedings of The 3rd International Symposium on Uncertainty Quantification and Stochastic Modeling. Maresias, Sao Paulo, Brazil: ABCM.
- Information
Information
Abstract:
The paper presents the uncertainty quantification of an elevator system by the Method of Polynomial Chaos. Initially, the mathematical model (the equations of motion) of an elevator system is derived and the sources of randomness are identified, which are in the elevator’s trail. The method of polynomial chaos is then presented in its two versions (intrusive and non-intrusive) and the non-intrusive version is applied (numerically) in order to evaluate the uncertainties in the amplitude of the rope and car vibration by means of an auto-covariance function.
Uncontrolled Keywords:
Elevator systems, polynomial chaos, uncertainty quantification
Subjects:
Creators:
Colon, D., Kaczmarczyk, S. and Balthazar, J.
Editors:
Rade, D. A. and Lima, A. M. G.
Publisher:
ABCM
Faculties, Divisions and Institutes:
Date:
15 February 2016
Date Type:
Publication
Title of Book:
Proceedings of The 3rd International Symposium on Uncertainty Quantification and Stochastic Modeling
Event Title:
3rd International Symposium on Uncertainty Quantification and Stochastic Modeling (Uncertainties 2016)
Event Dates:
15-19 February 2016
Place of Publication:
Maresias, Sao Paulo, Brazil
Event Location:
Maresias, Sao Paulo, Brazil
Event Type:
Conference
Number of Pages:
10
Language:
English
Status:
Published / Disseminated
Refereed:
Yes
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