D. Giardini, Geothermal quake risks must be faced, Nature, vol.462, issue.7275, p.259, 2009.
DOI : 10.1038/462848a

R. Rupakhety and R. Sigbjörnsson, On the effects of induced earthquakes 262 due to fluid injection at Hellisheidi geothermal power plant, Iceland, 263 Proceedings of Fifteenth World Conference on Earthquake Engineering, pp.2012-265

F. O. Strasser and J. J. Bommer, Review: Strong Ground Motions--Have We Seen the Worst?, Bulletin of the Seismological Society of America, vol.99, issue.5, pp.99-2613, 2009.
DOI : 10.1785/0120080300

H. Crowley, P. J. Stafford, and J. J. Bommer, Can earthquake loss models be 269 validated using field observations?, Journal of Earthquake Engineering, vol.270, issue.7, pp.12-1078, 2008.
DOI : 10.1080/13632460802212923

J. Douglas, B. Edwards, B. M. Cabrera, V. Convertito, A. Tramelli et al., Predicting 273 ground motion from induced earthquakes in geothermal areas, p.275

N. Jayaram and J. W. Baker, Correlation model for spatially distributed 276 ground-motion intensities, Earthquake Engineering and Structural Dy- 277 namics, pp.1687-1708, 2009.

B. Halldorsson, R. Sigbjornsson, and J. Schweitzer, ICEARRAY: the first small-aperture, strong-motion array in Iceland, Journal of Seismology, vol.159, issue.6, p.13, 2009.
DOI : 10.1007/s10950-008-9133-z

M. D. Trifunac, Recording strong earthquake motion ? Instruments, 282 recording strategies and data processing, Tech. Rep. CE 07-03, Depart- 283 ment of Civil Engineering, University of Southern California, Prob- 285 abilistic relationships between ground-motion parameters and Modified 286, p.284, 2007.

J. R. Carr, C. E. Glass, N. N. Ambraseys, and J. Douglas, Use of geostatistics for accurate mapping of 289 earthquake ground motion, Magnitude calibration for north Indian 291 earthquakes, pp.31-40, 1989.