Huddle test of optical inertial sensors combined with slightly damped mechanics

Ding, B.; Zhao, Guoying; Watchi, J.; Collette, Christophe

No full text

Paper published in a book (Scientific congresses and symposiums)

Huddle test of optical inertial sensors combined with slightly damped mechanics

Ding, B.; Zhao, Guoying; Watchi, J. et al.

2018 • In Proceedings of ISMA 2018 - International Conference on Noise and Vibration Engineering and USD 2018 - International Conference on Uncertainty in Structural Dynamics

Peer reviewed

Permalink
https://hdl.handle.net/2268/251886

Files (0)Send to Details Statistics Bibliography Similar publications

Files

Full Text

No document available.

Send to

RIS BibTex APA Chicago Permalink X Linkedin

Details

Disciplines :

Mechanical engineering

Author, co-author :

Ding, B.

Zhao, Guoying ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > Active aerospace struct. and adv. mecha. systems

Watchi, J.

Collette, Christophe ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > Active aerospace struct. and adv. mecha. systems

Language :

English

Title :

Huddle test of optical inertial sensors combined with slightly damped mechanics

Publication date :

2018

Event name :

Proceedings of ISMA 2018 - International Conference on Noise and Vibration Engineering and USD 2018 - International Conference on Uncertainty in Structural Dynamics

Event date :

2018

Audience :

International

Main work title :

Proceedings of ISMA 2018 - International Conference on Noise and Vibration Engineering and USD 2018 - International Conference on Uncertainty in Structural Dynamics

Peer reviewed :

Peer reviewed

Commentary :

Proceedings of ISMA 2018 - International Conference on Noise and Vibration Engineering and USD 2018 - International Conference on Uncertainty in Structural Dynamics cited By 1 Scopus

Available on ORBi :

since 22 October 2020

Statistics

Number of views

60 (4 by ULiège)

Number of downloads

0 (0 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

Bibliography

Lee, W. H. K., Celebi, M., Todorovska, M. I., & Diggles, M. F. (2007). Rotational Seismology and Engineering Applications: Proceedings for the First International Workshop, Menlo Park, California, USA-September 18 to 19, 2007. US Geol. Surv. Open File Rep, 1144.
Collette, C., Janssens, S., Fernandez-Carmona, P., Artoos, K., Guinchard, M., Hauviller, C., & Preumont, A. (2012). Inertial Sensors for Low-Frequency Seismic Vibration Measurement. Bulletin of the seismological society of America, 102(4), 1289-1300.
Rodgers, P. W. (1969). A note on the response of the pendulum seismometer to plane wave rotation. Bulletin of the Seismological Society of America, 59(5), 2101-2102.
Matichard, F., & Evans, M. (2015). Tilt-free low-noise seismometry. Bulletin of the Seismological Society of America, 105(2A), 497-510.
Birch, K. P. (1990). Optical fringe subdivision with nanometric accuracy. Precision Engineering, 12(4), 195-198.
Zumberge, M. A., Berger, J., Dzieciuch, M. A., & Parker, R. L. (2004). Resolving quadrature fringes in real time. Applied optics, 43(4), 771-775.
Downs, M. J., & Raine, K. W. (1979). An unmodulated bi-directional fringe-counting interferometer system for measuring displacement. Precision engineering, 1(2), 85-88.
Otero, J. D. (2009). Development and characterization of an observatory-class, broadband, non-fedback, leaf-spring interferometric seismometer. University of California, San Diego.
Zumberge, M., Berger, J., Otero, J., & Wielandt, E. (2010). An optical seismometer without force feedback. Bulletin of the seismological society of America, 100(2), 598-605.
Acernese, F., Giordano, G., Romano, R., De Rosa, R., & Barone, F. (2008). Mechanical monolithic horizontal sensor for low frequency seismic noise measurement. Review of scientific instruments, 79(7), 074501.
Acernese, F., Giordano, G., Romano, R., & Barone, F. (2012, September). Compact tunable monolithic sensors for vibration monitoring and control of structures and very low frequency large band characterization of sites. In 15th World Conference in Earthquake Engineering (pp. 24-28).
Collette, C., Nassif, F., Amar, J., Depouhon, C., & Gorza, S. P. (2015). Prototype of interferometric absolute motion sensor. Sensors and Actuators A: Physical, 224, 72-77.
Watchi, J., Ding, B., Matichard, F., & Collette, C. (2016). Development of a high-resolution optical inertial sensor for sub-hz seismic isolation (ISMA2016 International Conference on Noise and Vibration Engineering, 19-21 September 2016 (Leuven, Belgium))
Wielandt, E., & Streckeisen, G. (1982). The leaf-spring seismometer: Design and performance. Bulletin of the Seismological Society of America, 72(6A), 2349-2367.
Ponceau, D., Millier, P., & Olivier, S. (2008, April). Subnanometric Michelson interferometry for seismological applications. In Optical Sensors 2008 (Vol. 7003, p. 70030U). International Society for Optics and Photonics.
Saulson, P. R. (1990). Thermal noise in mechanical experiments. Physical Review D, 42(8), 2437.
Holcomb, L. G. (1989). A direct method for calculating instrument noise levels in side-by-side seismometer evaluations. HISTORY, 2, 1.