B. Abbott Ligo: the laser interferometer gravitational-wave observatory Reports on Progress in Physics 72 7 2009 076901 URL: http://stacks.iop.org/0034-4885/72/i=7/a=076901
C. Collette, S. Janssens, K. Artoos, A. Kuzmin, P. Fernandez Carmona, M. Guinchard, R. Leuxe, C. Hauviller, Nano-motion control of heavy quadrupoles for future particle colliders: an experimental validation. oai:cds.cern.ch:1423019, Nuclear Instruments and Methods in Physics Research Section A 643 (EuCARD-PUB-2011-004. 1) (2011) 95-101.
C. Collette, S. Janssens, P. Fernandez-Carmona, K. Artoos, M. Guinchard, C. Hauviller, and A. Preumont Review inertial sensors for low-frequency seismic vibration measurement Bulletin of the Seismological Society of America 102 4 2012 1289 1300
F. Matichard, LIGO vibration isolation and alignment platforms: an overview of systems, features and performance of interest for the field of precision positioning and manufacturing, ASPE Conference on Control of Precision Systems, 2013.
W. Gevarter Basic relations for control of flexible vehicles AIAA Journal 8 1970 666 672
G. Martin, On the Control of Flexible Mechanical Systems, PhD Thesis, Stanford University, 1978.
M. Stieber, Sensors, actuators, and hyperstability of structures, no. 10.2514/6, Guidance, Navigation and Control Conference, 1988, pp. 1988-4057.
C. Goh, and T. Caughey On the stability problem caused by finite actuator dynamics in the collocated control of large space structures International Journal of Control 41 3 1985 787 802
F. Matichard, Prototyping, testing, and performance of the two-stage seismic isolation system for advanced ligo gravitational wave detectors, ASPE Conference on Control of Precision Systems, 2010.
F. Matichard, K. Mason, R. Mittleman, B. Lantz, B. Abbott, M. McInnis, A. LeRoux, M. Hillard, C. Ramet, S. Barnum, A. Stein, S. Foley, H. Radkins, J. Kissel, V. Biscans, S. Lhuillier, Dynamics enhancements of advanced ligo multi-stage active vibration isolators and related control performance improvement, Proceedings of the 24th Conference on Mechanical Vibration and Noise, Chicago, IL, USA, 2012.
J. Spanos Control-structure interaction in precision pointing servo loops Journal of Guidance, Control and Dynamics 12 1989 256 263
H. Frahm, Improved means for damping the vibrations of bodies (GB190923829A), 1909.
J. Ormondroyd, and J. Den Hartog The theory of damped vibration absorber Journal of Applied Mechanics 50 1929 7
J. Yocum, and L. Slafer Control system design in the presence of severe structural dynamics interactions Journal of Guidance, Control and Dynamics 1 1978 109 116
W. Hua, Low Frequency Vibration Isolation and Alignment System for Advanced LIGO, PhD Thesis, Stanford University, 2005.
G. Hauge, and M. Campbell Sensors and control of a space-based six-axis vibration isolation system Journal of Sound and Vibration 269 2004 913 931
D. Tjepkema, J. Van Dijk, and H.M.J.R. Soemers Sensor fusion for active vibration isolation in precision equipment Journal of Sound and Vibration 331 4 2012 735 749
M.A. Beijen, D. Tjepkema, and J. van Dijk Two-sensor control in active vibration isolation using hard mounts Control Engineering Practice 26 0 2014 82 90
F. Fleming, The Effect of Structure, Actuator and Sensor on the Zeroes of Collocated Structures, PhD Thesis, Massachusetts Institute of Technology, Cambridge, 1990.
D. Tjepkema, Active Hard Mount Vibration Isolation for Precision Equipment, PhD Thesis, University of Twente, 2012.
F. Matichard, B. Lantz, K. Mason, R. Mittleman, B. Abbott, Advanced LIGO Two-Stage Twelve-Axis Vibration Isolation and Positioning Platform. Part 2: Experimental Investigation and Tests Results, Precision engineering, arXiv:1407.6324, 2014.
