Strawberry is an economically important herbaceous plant and the annual output value of strawberry industry is up to 1.6 billion NT dollars in Taiwan. Strawberry can subsist two to three years in field; however, there are many diseases during its cultivation, especially, anthracnose, which is the most devastating fungal disease that threatens in strawberry and causes farmers to replant new plants every year. Hyperspectral imaging has the potential to extract integrated spatial and spectral information related to the plant's functional dynamics regarding both structure and physiology. The objective of this research is to detect strawberry anthracnose with the hyperspectral imaging system, which is expected to find out the characteristic bands of anthracnose identification and detect disease as early as possible. Finally, we hope it can provide novel and non-destructive tools to diagnosis plant disease severity more practically and efficiently. Therefore, strawberry farmers could profit greatly from this technology. In this study, we use a variety of methods to carry out simple dimensionality reduction. We hope to find the characteristic bands that are significant for distinguishing anthracnose. After evaluating the R2 and RMSEC values of various models, we will infer that a better model can be established by stepwise regression analysis of the whole band from 470-950 nm. The model is divided into two stages: disease and latent infection. The average R2 and RMSEC of the two models are R2 = 0.79, 0.91, respectively and RMSEC = 0.11, 0.53, respectively. And then using limited of detection value as a threshold for distinguishing between healthy and sick samples. The diseased model provided the detection of healthy samples with accuracy of 87% and symptomatic samples with accuracy of 72%, while the model for evaluating latent infection provided the detection of healthy samples with accuracy of 72% and symptomatic samples with accuracy of 71%. The samples classified as infected or latent infections in the two models were further evaluated the disease severity by the model. This study confirms that stepwise regression analysis can be one of the classifier tools in hyperspectral imaging analysis for quantitative analysis and field control of strawberry anthracnose.