As shown in Section IV.C, the estimation accuracies of
the chlorophyll indices based on the NIR and RE bands are
sufficiently high. However, the performance can be further
improved by using a hyperspectral sensor that covers the
reflectance plateau, i.e., the NIR range around 800 nm, because
the spectral ranges of and defined in equations
from (2) to (6) belong to the RE range rather than the reflectance
plateau. The Mini-Spectrometer C10988MA sensor
in the proposed system can be replaced easily by C11708MA
because C11708MA is electrically identical to C10988MA
(Table I). Because the spectral response range of C11708MA,
i.e., 640–1050 nm, covers not only the RE but also the NIR
range, i.e., 800–850 nm, the estimation accuracy based on the
use of C11708MA is expected to outperform that of the results
in this paper.
As shown in Section IV.C, the estimation accuracies of
the chlorophyll indices based on the NIR and RE bands are
sufficiently high. However, the performance can be further
improved by using a hyperspectral sensor that covers the
reflectance plateau, i.e., the NIR range around 800 nm, because
the spectral ranges of and defined in equations
from (2) to (6) belong to the RE range rather than the reflectance
plateau. The Mini-Spectrometer C10988MA sensor
in the proposed system can be replaced easily by C11708MA
because C11708MA is electrically identical to C10988MA
(Table I). Because the spectral response range of C11708MA,
i.e., 640–1050 nm, covers not only the RE but also the NIR
range, i.e., 800–850 nm, the estimation accuracy based on the
use of C11708MA is expected to outperform that of the results
in this paper.
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