Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei"
We would like to thank A. Esfandiari and M. Sanayei [1] for their interests and comments on our work “function-weighted frequency response function sensitivity method for analytical model updating” previously published in the Journal of Sound and Vibration [2]. The primary objective of our work wa...
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sg-ntu-dr.10356-1528462021-10-08T06:21:18Z Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" Lin Rongming School of Mechanical and Aerospace Engineering Engineering::Mechanical engineering Item Response Theory Commentary We would like to thank A. Esfandiari and M. Sanayei [1] for their interests and comments on our work “function-weighted frequency response function sensitivity method for analytical model updating” previously published in the Journal of Sound and Vibration [2]. The primary objective of our work was to explore the possibilities of further enhancing the numerical solution process associated with finite element model updating using FRF data by exploiting the known mathematical characteristics of the receptance sensitivities at each design point during the iterations. There is some obvious misunderstanding about the basic concept that we sought to convey in our paper [2], either because of the way we presented the material which somehow lacks clarity, or because of the mathematical complexity associated with the work, leading to difficulties in understanding well how the proposed method actually works. This commentary serves to address these concerns by (i) introducing simple generic mathematical examples to illustrate how the proposed method works, without getting involved with the mathematical complexities of model updating practice, (ii) further discussing the mathematical concept and deriving analytically the key receptance sensitivities and, (iii) providing additional numerical results to support and demonstrate the key characteristics of receptance sensitivities. 2021-10-08T06:21:18Z 2021-10-08T06:21:18Z 2018 Journal Article Lin Rongming (2018). Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei". Journal of Sound and Vibration, 432, 706-714. https://dx.doi.org/10.1016/j.jsv.2018.06.039 0022-460X https://hdl.handle.net/10356/152846 10.1016/j.jsv.2018.06.039 2-s2.0-85048721976 432 706 714 en Journal of Sound and Vibration © 2018 Elsevier Ltd. All rights reserved |
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Engineering::Mechanical engineering Item Response Theory Commentary Lin Rongming Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" |
| description |
We would like to thank A. Esfandiari and M. Sanayei [1] for their interests and comments on our work “function-weighted
frequency response function sensitivity method for analytical model updating” previously published in the Journal of Sound
and Vibration [2]. The primary objective of our work was to explore the possibilities of further enhancing the numerical
solution process associated with finite element model updating using FRF data by exploiting the known mathematical
characteristics of the receptance sensitivities at each design point during the iterations. There is some obvious misunderstanding about the basic concept that we sought to convey in our paper [2], either because of the way we presented the
material which somehow lacks clarity, or because of the mathematical complexity associated with the work, leading to
difficulties in understanding well how the proposed method actually works. This commentary serves to address these
concerns by (i) introducing simple generic mathematical examples to illustrate how the proposed method works, without
getting involved with the mathematical complexities of model updating practice, (ii) further discussing the mathematical
concept and deriving analytically the key receptance sensitivities and, (iii) providing additional numerical results to support
and demonstrate the key characteristics of receptance sensitivities. |
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School of Mechanical and Aerospace Engineering |
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School of Mechanical and Aerospace Engineering Lin Rongming |
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Article |
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Lin Rongming |
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Lin Rongming |
| title |
Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" |
| title_short |
Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" |
| title_full |
Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" |
| title_fullStr |
Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" |
| title_full_unstemmed |
Commentary on “Discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by A. Esfandiari and M. Sanayei" |
| title_sort |
commentary on “discussion on ‘function-weighted frequency response function sensitivity method for analytical model updating’ by a. esfandiari and m. sanayei" |
| publishDate |
2021 |
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https://hdl.handle.net/10356/152846 |
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1715201488621404160 |