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Canopy reflectance models (CRMs) can accurately estimate vegetation canopy
biophysical-structural information such as Leaf Area Index (LAI) inexpensively using
satellite imagery. The strict physical basis which geometric-optical CRMs employ to
mathematically link canopy bidirectional reflectance and structure allows for the tangible
replication of a CRM's geometric abstraction of a canopy in the laboratory, enabling
robust CRM validation studies. To this end, the ULGS-2 goniometer was used to obtain
multiangle, hyperspectral (Spectrodirectional) measurements of a specially-designed
tangible physical model forest, developed based upon the Geometric-Optical Mutual
Shadowing (GOMS) CRM, at three different canopy cover densities. GOMS forwardmodelled
reflectance values had high levels of agreement with ULGS-2 measurements,
with obtained reflectance RMSE values ranging from 0.03% to 0.1%. Canopy structure
modelled via GOMS Multiple-Forward-Mode (MFM) inversion had varying levels of
success. The methods developed in this thesis can potentially be extended to more
complex CRMs through the implementation of 3D printing
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