Abstract:In this study, an electronic nose was developed to detect the moldy wheat. Different wheat samples which had different degree of mildew and were mixed with different percentage of moldy wheat were detected by this electronic nose system. Analysis of variance and principal component analysis (PCA) were applied to optimize the sensor array and 2 redundant sensors were removed. PCA and linear discriminant analysis (LDA) methods were used to qualitatively analysis the optimized data of electronic nose. The total contributions of first two principal components in PCA were 98.30% and 99.27%, and the total contributions of first two discriminant functions in LDA were 99.68% and 93.30%, respectively. The analysis of PCA and LDA indicated that both of the two methods had good classification performance. BP neural network were applied to build the predictive models to predict the aerobic bacterial count in the samples and the percentage of moldy wheat mixed into the samples. The correlation coefficient between the predictive values and virtual values of the two predictive models were 0.91 and 0.94 which indicated that the predictive models had good prediction performance.