@incollection{fdi:010090464,
  title = {{N}ew versatile autonomous platforms for long-term geophysical monitoring in the ocean},
  author = {{H}ello, {Y}ann  and {R}oyer, {J}.{Y}. and {R}ivet, {D}. and {C}harvis, {P}hilippe and {Y}egikyan, {M}. and {P}hilippe, {O}.},
  editor = {},
  language = {{ENG}},
  abstract = {{L}ong-term monitoring ofthe ocean, for instance its seismic activity, remains a technical and a financial challenge. {D}espite technological advances in reducing the size and consumption of electronic components, in providing powerful energy through {L}ithium batteries, and in reducing the size of sensors, the new generation of stand-alone instruments such as {O}cean {B}ottom {S}eismometers ({OBS}) cannot be deployed on average for more than a year on the seafloor andprovide access to their data only upon their recovery. {A}ny long-term monitoring thus implies multiple cruises and redeployments. {P}ermanent observatories with real-time access to data require ambitious cabled-to-shore sensors and infrastructures. {H}ere we propose an alternative solution bridging the gap between these two endmembers, consisting of multi-parameter platforms for seafloor ({MUG}-{OBS}) or water-column ({HYDROBS}) observations, and offering a lifespan offour years and an access to the collected data through data-shuttles releasable on demandfrom a surface ship.},
  keywords = {{ANTILLES} ; {EQUATEUR}},
  booktitle = {{OCEANS} 2019 - {M}arseille},
  numero = {},
  pages = {en ligne [8 ]},
  address = {{P}iscataway},
  publisher = {{IEEE}},
  series = {},
  year = {2019},
  DOI = {10.1109/{OCEANSE}.2019.8867216},
  ISBN = {978-1-7281-1450-7},
  URL = {https://www.documentation.ird.fr/hor/fdi:010090464},
}