The fourth phase of the radiative transfer model intercomparison (RAMI) exercise: Actual canopy scenarios and conformity testing

Tutkimustuotos: Lehtiartikkelivertaisarvioitu


  • Jean Luc Widlowski
  • Corrado Mio
  • Mathias Disney
  • Jennifer Adams
  • Ioannis Andredakis
  • Clement Atzberger
  • James Brennan
  • Lorenzo Busetto
  • Michaël Chelle
  • Guido Ceccherini
  • Roberto Colombo
  • Jean Francois Côté
  • Alo Eenmäe
  • Richard Essery
  • Jean Philippe Gastellu-Etchegorry
  • Nadine Gobron
  • Eloi Grau
  • Vanessa Haverd
  • Lucie Homolová
  • Huaguo Huang
  • Linda Hunt
  • Hideki Kobayashi
  • Benjamin Koetz
  • Andres Kuusk
  • Joel Kuusk
  • Mait Lang
  • Philip E. Lewis
  • Jennifer L. Lovell
  • Zbyněk Malenovský
  • Michele Meroni
  • Felix Morsdorf
  • Matti Mõttus
  • Wenge Ni-Meister
  • Bernard Pinty
  • Martin Schlerf
  • Ben Somers
  • Jan Stuckens
  • Michel M. Verstraete
  • Wenze Yang
  • Feng Zhao
  • Terenzio Zenone


  • NERC National Centre for Earth Observation (NCEO)
  • University College London
  • Institut national de la recherche agronomique
  • Natural Resources Canada
  • Tartu Observatory
  • University of Edinburgh
  • Centre d'Etudes Spatiales de la BIOsphère
  • Czech Academy of Sciences
  • Beijing Forestry University
  • Science Systems and Applications, Inc.
  • Japan Agency for Marine-Earth Science and Technology
  • European Space Agency - ESA
  • University of Wollongong
  • Universitat Zurich
  • University of Helsinki
  • City University of New York
  • Luxembourg Institute of Science and Technology
  • KU Leuven
  • Merkator nv
  • University of the Witwatersrand
  • University of Maryland, College Park
  • University of Antwerp
  • European Commission Joint Research Centre at Ispra
  • University of Milano-Bicocca
  • Estonian University of Life Sciences
  • South African National Space Agency
  • Beijing University of Aeronautics and Astronautics
  • University of Natural Resources and Life Sciences


The RAdiative transfer Model Intercomparison (RAMI) activity focuses on the benchmarking of canopy radiative transfer (RT) models. For the current fourth phase of RAMI, six highly realistic virtual plant environments were constructed on the basis of intensive field data collected from (both deciduous and coniferous) forest stands as well as test sites in Europe and South Africa. Twelve RT modelling groups provided simulations of canopy scale (directional and hemispherically integrated) radiative quantities, as well as a series of binary hemispherical photographs acquired from different locations within the virtual canopies. The simulation results showed much greater variance than those recently analysed for the abstract canopy scenarios of RAMI-IV. Canopy complexity is among the most likely drivers behind operator induced errors that gave rise to the discrepancies. Conformity testing was introduced to separate the simulation results into acceptable and non-acceptable contributions. More specifically, a shared risk approach is used to evaluate the compliance of RT model simulations on the basis of reference data generated with the weighted ensemble averaging technique from ISO-13528. However, using concepts from legal metrology, the uncertainty of this reference solution will be shown to prevent a confident assessment of model performance with respect to the selected tolerance intervals. As an alternative, guarded risk decision rules will be presented to account explicitly for the uncertainty associated with the reference and candidate methods. Both guarded acceptance and guarded rejection approaches are used to make confident statements about the acceptance and/or rejection of RT model simulations with respect to the predefined tolerance intervals.


JulkaisuRemote Sensing of Environment
TilaJulkaistu - 1 marraskuuta 2015
OKM-julkaisutyyppiA1 Julkaistu artikkeli, soviteltu

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