Title
Implementation of the scanning laser Doppler vibrometer combined with a light-weight pneumatic artificial muscle actuator for the modal analysis of a civil structure Implementation of the scanning laser Doppler vibrometer combined with a light-weight pneumatic artificial muscle actuator for the modal analysis of a civil structure
Author
Faculty/Department
Faculty of Applied Engineering Sciences
Publication type
article
Publication
New York :Wiley-Interscience ,
Subject
Physics
Source (journal)
Shock and vibration. - New York
Volume/pages
19(2012) :3 , p. 421-431
ISSN
1070-9622
ISI
000305159100013
Carrier
E
Target language
English (eng)
Full text (Publishers DOI)
Abstract
The identification of the modal parameters of bridges and other large civil constructions has become an important research issue. Different approaches have been proposed depending on the excitation used: ambient excitations (due to wind, traffic, ..) or artificial excitations (e.g. impact test with heavy drop weights). In practice it turns out that not all modes are well excited by the ambient forces. Hence the application of an artificial actuator is advisable. The problem is that larger constructions often require large and heavy excitation devices, which are hard to manipulate. Another difficulty encountered in performing a modal analysis on large civil constructions is the necessity for a large number of high sensitivity sensors. Consequently a large number of cables has to be installed resulting in a large setup time. This paper is a proof-of-concept which demonstrates the possibility of using lightweight Pneumatic Artificial Muscles combined with the scanning laser Doppler vibrometer to perform a modal analysis on a civil structure. This combination allows for an important reduction in setup time and allows for sine testing as well as the application of broadband signals such as periodic chirps, true noise or multisines.
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