- Collette, C. et al., Review: inertial sensors for low-frequency seismic vibration measurement <supid="dd5109075933cf543c7eba0979c0ba50"><ahref="#collette12_review"title="Collette, Janssens, Fernandez-Carmona, , Artoos, Guinchard, Hauviller \& Preumont, Review: Inertial Sensors for Low-Frequency Seismic Vibration Measurement, {Bulletin of the Seismological Society of America}, v(4), 1289-1300 (2012).">(Collette {\it et al.}, 2012)</a></sup>
- Collette, C. et al., Comparison of new absolute displacement sensors <supid="0b0b67de6dddc4d28031ab2d3b28cd3d"><ahref="#collette12_compar"title="Collette,Janssens,Mokrani,Fueyo-Roza,L,Artoos,Esposito,Fernandez-Carmona,,Guinchard \&Leuxe,Comparisonofnewabsolutedisplacementsensors,inin:{InternationalConferenceonNoiseandVibrationEngineering
{{<figuresrc="/ox-hugo/collette12_absolute_disp_sensors.png"caption="Figure 1: Dynamic range of several types of inertial sensors; Price versus resolution for several types of inertial sensors">}}
- Fleming, A. J., A review of nanometer resolution position sensors: operation and performance <supid="3fb5b61524290e36d639a4fac65703d0"><ahref="#fleming13_review_nanom_resol_posit_sensor"title="Andrew Fleming, A Review of Nanometer Resolution Position Sensors: Operation and Performance, {Sensors and Actuators A: Physical}, v(nil), 106-126 (2013).">(Andrew Fleming, 2013)</a></sup> ([Notes]({{<relref"fleming13_review_nanom_resol_posit_sensor">}}))
Summary of position sensor characteristics. The dynamic range (DNR) and resolution are approximations based on a full-scale range of \(100 \mu m\) and a first order bandwidth of \(1 kHz\) <aclass='org-ref-reference'href="#fleming13_review_nanom_resol_posit_sensor">fleming13_review_nanom_resol_posit_sensor</a>
{{<figuresrc="/ox-hugo/position_sensor_interferometer_precision.png"caption="Figure 2: Expected precision of interferometer as a function of measured distance">}}
<aid="collette12_review"></a>Collette, C., Janssens, S., Fernandez-Carmona, P., Artoos, K., Guinchard, M., Hauviller, C., & Preumont, A., *Review: inertial sensors for low-frequency seismic vibration measurement*, Bulletin of the Seismological Society of America, *102(4)*, 1289–1300 (2012). http://dx.doi.org/10.1785/0120110223 [↩](#dd5109075933cf543c7eba0979c0ba50)
<aid="collette12_compar"></a>Collette, C., Janssens, S., Mokrani, B., Fueyo-Roza, L., Artoos, K., Esposito, M., Fernandez-Carmona, P., …, *Comparison of new absolute displacement sensors*, In , International Conference on Noise and Vibration Engineering (ISMA) (pp. ) (2012). : . [↩](#0b0b67de6dddc4d28031ab2d3b28cd3d)
<aid="fleming13_review_nanom_resol_posit_sensor"></a>Fleming, A. J., *A review of nanometer resolution position sensors: operation and performance*, Sensors and Actuators A: Physical, *190(nil)*, 106–126 (2013). http://dx.doi.org/10.1016/j.sna.2012.10.016 [↩](#3fb5b61524290e36d639a4fac65703d0)
<aid="collette11_review"></a>Collette, C., Artoos, K., Guinchard, M., Janssens, S., Carmona Fernandez, P., & Hauviller, C., *Review of sensors for low frequency seismic vibration measurement* (2011). [↩](#642a18d86de4e062c6afb0f5f20501c4)
<aid="jang17_compen_refrac_index_air_laser"></a>Jang, Y., & Kim, S., *Compensation of the refractive index of air in laser interferometer for distance measurement: a review*, International Journal of Precision Engineering and Manufacturing, *18(12)*, 1881–1890 (2017). http://dx.doi.org/10.1007/s12541-017-0217-y [↩](#7658b1219a4458a62ae8c6f51b767542)