@article{fdi:010073030,
  title = {{G}uidelines for the good practice of surface wave analysis : a product of the {I}nter{PACIFIC} project},
  author = {{F}oti, {S}. and {H}ollender, {F}. and {G}arofalo, {F}. and {A}lbarello, {D}. and {A}sten, {M}. and {B}ard, {P}. {Y}. and {C}omina, {C}. and {C}ornou, {C}{\'e}cile and {C}ox, {B}. and {D}i {G}iulio, {G}. and {F}orbriger, {T}. and {H}ayashi, {K}. and {L}unedei, {E}. and {M}artin, {A}. and {M}ercerat, {D}. and {O}hrnberger, {M}. and {P}oggi, {V}. and {R}enalier, {F}. and {S}icilia, {D}. and {S}occo, {V}.},
  editor = {},
  language = {{ENG}},
  abstract = {{S}urface wave methods gained in the past decades a primary role in many seismic projects. {S}pecifically, they are often used to retrieve a 1{D} shear wave velocity model or to estimate the {V}-s,{V}-30 at a site. {T}he complexity of the interpretation process and the variety of possible approaches to surface wave analysis make it very hard to set a fixed standard to assure quality and reliability of the results. {T}he present guidelines provide practical information on the acquisition and analysis of surface wave data by giving some basic principles and specific suggestions related to the most common situations. {T}hey are primarily targeted to non-expert users approaching surface wave testing, but can be useful to specialists in the field as a general reference. {T}he guidelines are based on the experience gained within the {I}nter{PACIFIC} project and on the expertise of the participants in acquisition and analysis of surface wave data.},
  keywords = {{R}ayleigh waves ; {MASW} ; {A}mbient vibration analysis ; {S}ite characterization ; {S}hear wave velocity ; {V}-{S},{V}-30},
  booktitle = {},
  journal = {{B}ulletin of {E}arthquake {E}ngineering},
  volume = {16},
  numero = {6},
  pages = {2367--2420},
  ISSN = {1570-761{X}},
  year = {2018},
  DOI = {10.1007/s10518-017-0206-7},
  URL = {https://www.documentation.ird.fr/hor/fdi:010073030},
}