Abstract
Knowledge of wheat classes and moisture contents not only determines the end use of wheat flour but also helps in developing effective storage systems for wheat. Samples of four classes of wheat (Canada Western Red Spring (CWRS), Canada Western Hard White Spring (CWHWS), Canada Western Soft White Spring (CWSWS), and Canada Prairie Spring Red (CPSR)) were obtained from five-six different locations in Manitoba, Saskatchewan, and Alberta for 2007, 2008, and 2009 crop years and conditioned to moisture contents of 13, 16, and 19%. Near-infrared hyperspectral images were acquired from bulk samples in the 960-1700 nm wavelength region at 10 nm intervals. Pair-wise average classification accuracies of 83.7 and 73.1-83.2% were obtained using a four-layer standard back propagation neural network (BPNN) model for identifying moisture contents and for discriminating wheat classes at each moisture level, respectively. Key wavelengths were identified based on their highest contributions towards classification. This work showed that NIR hyperspectral imaging can be used as a potential nondestructive tool for classifying moisture-specific wheat classes.
Published Version
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