The Experts below are selected from a list of 1181193 Experts worldwide ranked by ideXlab platform
Jean-claude Golinval - One of the best experts on this subject based on the ideXlab platform.
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VTT benchmark: Application of the restoring force Surface Method
Mechanical Systems and Signal Processing, 2003Co-Authors: Gaëtan Kerschen, Vincent Lenaerts, Jean-claude GolinvalAbstract:The restoring force Surface Method is an efficient and reliable technique for the identification of non-linear mechanical systems. The objective of this paper is to demonstrate its utility for the identification of the VTT benchmark.
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Identification of wire rope isolators using the restoring force Surface Method
2001Co-Authors: Gaëtan Kerschen, Vincent Lenaerts, Jean-claude GolinvalAbstract:The restoring force Surface Method offers an efficient and reliable identification of non-linear single-degree-of-freedom systems. The Method may be extended to multidegree-of-freedom systems but by loosing the key advantage of the Method which lies in the two-dimensional representation for single-degree-of-freedom systems. An experimental application of the restoring force Surface Method is considered in the present paper. The structure investigated consists of wire rope isolators mounted between a load mass and a base mass. These helical isolators were found to be characterised by a non-linear behaviour. The results obtained are discussed in details and the advantages and drawbacks of the Method are underlined.
Gaëtan Kerschen - One of the best experts on this subject based on the ideXlab platform.
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VTT benchmark: Application of the restoring force Surface Method
Mechanical Systems and Signal Processing, 2003Co-Authors: Gaëtan Kerschen, Vincent Lenaerts, Jean-claude GolinvalAbstract:The restoring force Surface Method is an efficient and reliable technique for the identification of non-linear mechanical systems. The objective of this paper is to demonstrate its utility for the identification of the VTT benchmark.
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Identification of wire rope isolators using the restoring force Surface Method
2001Co-Authors: Gaëtan Kerschen, Vincent Lenaerts, Jean-claude GolinvalAbstract:The restoring force Surface Method offers an efficient and reliable identification of non-linear single-degree-of-freedom systems. The Method may be extended to multidegree-of-freedom systems but by loosing the key advantage of the Method which lies in the two-dimensional representation for single-degree-of-freedom systems. An experimental application of the restoring force Surface Method is considered in the present paper. The structure investigated consists of wire rope isolators mounted between a load mass and a base mass. These helical isolators were found to be characterised by a non-linear behaviour. The results obtained are discussed in details and the advantages and drawbacks of the Method are underlined.
Vincent Lenaerts - One of the best experts on this subject based on the ideXlab platform.
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VTT benchmark: Application of the restoring force Surface Method
Mechanical Systems and Signal Processing, 2003Co-Authors: Gaëtan Kerschen, Vincent Lenaerts, Jean-claude GolinvalAbstract:The restoring force Surface Method is an efficient and reliable technique for the identification of non-linear mechanical systems. The objective of this paper is to demonstrate its utility for the identification of the VTT benchmark.
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Identification of wire rope isolators using the restoring force Surface Method
2001Co-Authors: Gaëtan Kerschen, Vincent Lenaerts, Jean-claude GolinvalAbstract:The restoring force Surface Method offers an efficient and reliable identification of non-linear single-degree-of-freedom systems. The Method may be extended to multidegree-of-freedom systems but by loosing the key advantage of the Method which lies in the two-dimensional representation for single-degree-of-freedom systems. An experimental application of the restoring force Surface Method is considered in the present paper. The structure investigated consists of wire rope isolators mounted between a load mass and a base mass. These helical isolators were found to be characterised by a non-linear behaviour. The results obtained are discussed in details and the advantages and drawbacks of the Method are underlined.
Luc Vanderschuren - One of the best experts on this subject based on the ideXlab platform.
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A Spectral Response Surface Method for Calculating Crest Elevation Statistics
Journal of Offshore Mechanics and Arctic Engineering, 2004Co-Authors: P. S. Tromans, Luc VanderschurenAbstract:The statistics of wave crest elevation in a random, directionally spread sea are calculated using a novel approach. The nonlinearity of steep waves is modelled to second order using Sharma and Dean kinematics and a spectral response Surface Method is used to deduce the crest elevation corresponding to a given probability of exceedance. The spectral response Surface Method works in the probability domain, making it several times faster than conventional time domain simulation of random waves. However, the results from the two Methods show good agreement. As expected, nonlinearity makes extreme crests higher than the corresponding linear ones.
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A Spectral Response Surface Method for Calculating Crest Elevation Statistics
21st International Conference on Offshore Mechanics and Arctic Engineering Volume 2, 2002Co-Authors: P. S. Tromans, Luc VanderschurenAbstract:The statistics of wave crest elevation in a random, directionally spread sea are calculated using a novel approach. The non-linearity of steep waves is modelled to second order using Sharma and Dean kinematics and a spectral response Surface Method is used to deduce the crest elevation corresponding to a given probability of exceedance. The spectral response Surface Method works in the probability domain, making it several times faster than conventional time domain simulation of random waves. However, the results from the two Methods show good agreement. As expected, non-linearity makes extreme crests higher than the corresponding linear ones.Copyright © 2002 by ASME
P. S. Tromans - One of the best experts on this subject based on the ideXlab platform.
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A Spectral Response Surface Method for Calculating Crest Elevation Statistics
Journal of Offshore Mechanics and Arctic Engineering, 2004Co-Authors: P. S. Tromans, Luc VanderschurenAbstract:The statistics of wave crest elevation in a random, directionally spread sea are calculated using a novel approach. The nonlinearity of steep waves is modelled to second order using Sharma and Dean kinematics and a spectral response Surface Method is used to deduce the crest elevation corresponding to a given probability of exceedance. The spectral response Surface Method works in the probability domain, making it several times faster than conventional time domain simulation of random waves. However, the results from the two Methods show good agreement. As expected, nonlinearity makes extreme crests higher than the corresponding linear ones.
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A Spectral Response Surface Method for Calculating Crest Elevation Statistics
21st International Conference on Offshore Mechanics and Arctic Engineering Volume 2, 2002Co-Authors: P. S. Tromans, Luc VanderschurenAbstract:The statistics of wave crest elevation in a random, directionally spread sea are calculated using a novel approach. The non-linearity of steep waves is modelled to second order using Sharma and Dean kinematics and a spectral response Surface Method is used to deduce the crest elevation corresponding to a given probability of exceedance. The spectral response Surface Method works in the probability domain, making it several times faster than conventional time domain simulation of random waves. However, the results from the two Methods show good agreement. As expected, non-linearity makes extreme crests higher than the corresponding linear ones.Copyright © 2002 by ASME
