@incollection{fdi:010084421,
  title = {{T}emporal decorrelation at c- and l-band over olive tree plantations : first insights from the marocscat campaigns},
  author = {{V}illard, {L}. and {C}hakir, {A}. and {F}anise, {P}ascal and {O}uaadi, {N}. and {E}zzahar, {J}. and {K}habba, {S}. and {K}asbani, {M}. and {L}e {D}antec, {V}. and {Z}ribi, {M}. and {E}r-{R}aki, {S}. and {F}rison, {P}.{L}. and {J}arlan, {L}ionel},
  editor = {},
  language = {{ENG}},
  abstract = {{T}his paper addresses the question of temporal decorrelation at {C} and {L}-band in the case of olive tree plantations, considering the very recent tower-based experiments in {M}orocco, as well as the preliminary results conducted in preparation phases. {B}ased on the expertise gained from the {T}ropi{S}cat-1&2 campaigns, the presented experiments also consist in the acquisition of dense time series using a {V}ector {N}etwork {A}nalyser ({VNA}) connected to several antennas, herein dedicated to {L} and {C}-band data. {L}ikewise, this experiment benefit from auxiliary measurements (meteorological and in-situ data) in order to better understand the processes behind temporal decorrelation, which remains a key issue for future repeat-pass, tandem or geostationary missions. {O}ur first results highlight the importance of the acquisition time during the day, and also rise the challenge on how to disentangle the combined effects of water content variations and wind induced displacements driven by solar convection.},
  keywords = {{MAROC} ; {MARRAKECH} ; {HAOUZ} {PLAINE}},
  booktitle = {2020 {M}editerranean and {M}iddle-{E}ast {G}eoscience and {R}emote {S}ensing {S}ymposium ({M}2{GARSS}) : proceedings},
  numero = {},
  pages = {57--60},
  address = {{P}iscataway},
  publisher = {{IEEE}},
  series = {},
  year = {2020},
  DOI = {10.1109/{M}2{GARSS}47143.2020.910519},
  ISBN = {978-1-7281-2190-1},
  URL = {https://www.documentation.ird.fr/hor/fdi:010084421},
}