Vibrations and cultural heritage preservation: a new approach to protect objects

Vibrations of cultural objects due to different sources (transport, exhibitions, local works) have recently been raising more and more interest from the heritage community. Consequently, the development of anti-vibration protection systems has become a major issue. However, most of the proposed solu...

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Bibliographic Details
Published in:European physical journal plus 2023-04, Vol.138 (4), p.310, Article 310
Main Authors: Forma, Loïc, Boutin, Henri, Jossic, Marguerite, Le Conte, Sandie, Wilkie-Chancellier, Nicolas
Format: Article
Language:English
Subjects:
Active control
Actuators
Adaptability
Algorithms
Amplitudes
Applied and Technical Physics
Atomic
Broadband
Complex Systems
Condensed Matter Physics
Control algorithms
Control equipment
Control systems
Control systems design
Control theory
Cultural heritage
Cultural heritage and museology
Cultural resources
Exhibitions
Focus Point on Scientific Research in Cultural Heritage 2022
Humanities and Social Sciences
Magnetic levitation systems
Mathematical and Computational Physics
Mechanics
Molecular
Museums
Optical and Plasma Physics
Physics
Physics and Astronomy
Regular Article
Shelving
Theoretical
Vibration
Vibration control
Vibration isolators
Vibration measurement
Vibrations
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Summary:Vibrations of cultural objects due to different sources (transport, exhibitions, local works) have recently been raising more and more interest from the heritage community. Consequently, the development of anti-vibration protection systems has become a major issue. However, most of the proposed solutions suffer from a lack of adaptability, practicality and effectiveness. To overcome these limits, this paper investigates the possibility to design a vibration control system based on the active control technique, whose purpose is to cancel out the disturbance vibration by creating an opposite vibration. This approach, which allows to control vibrations without contact to the object, is particularly suitable for heritage objects protected by cultural ethics rules. To test the feasibility of this approach, an experimental demonstration bench including a reproduction of a museum shelf and an active control device, composed of sensors and an electro-dynamic actuator, is developed. Vibration source signals similar to those previously measured in situ are applied to the shelf by a vibration exciter. A classic control algorithm, the Filtered Least Mean Square, is used to control the shelf vibrations. Results point out that the control device is able to reduce the amplitude of harmonic, respectively broadband, primary sources by 37.4 dB in 0.15 s and by 14.0 dB in 0.67 s. Furthermore, the system is robust to both amplitude and frequency content changes. Finally, a parametric study shows that the greatest vibration attenuation and the fastest control cannot be achieved simultaneously, so the algorithm parameters must result from a compromise.
ISSN:2190-5444
2190-5444
DOI:10.1140/epjp/s13360-023-03908-3