Hyperspectral image system (HSIS) was developed in this study to analyze the fermentation degree of tea. The hardware of the system included three parts: (1) lighting chamber, (2) image acquisition module (IAM), and (3) liquid crystal tunable filter (LCTF). The software was also developed in this study, and consisted of HSIS control program and hyperspectral image processing program. A rigid aluminum chamber and the light source with two 100W tungsten halogen lamps were used to set up the lighting chamber. Combining with IAM, LCTF, and HSIS control program, the hyperspectral image cube (400-1100 nm) was acquired automatically and quickly in 2.5 minutes. Spatial correction, background segmentation, and spectral information extraction were used to obtain good quality of hyperspectral images. Modified least partial square regression (MLPSR) and multiple linear regression (MLR) were employed to establish the calibration models for the total catechins content of the tea leaves. The characteristic wavelength ranges and wavelengths were selected from analyses. The variety of tea studied was Taiwan tea No. 12. The analysis results of MPLSR models (2008 summer tea and 2009 spring tea) of rc, SEC, rv , and SEV were 0.99-0.99, 4.56-5.79 mg/g, 0.98-0.99 and 5.67-6.30 mg/g respectively. The analysis results of MLR models (2008 summer tea and 2009 spring tea) of rc, SEC, rv , and SEV were 0.99-0.99, 5.04-6.49 mg/g, 0.98-0.98 and 6.50-9.56 mg/g respectively. The regression model was then employed in processed hyperspectral images to evaluate the fermentation degree of tea. The measurements of the total catechins content using NIR spectral information were addressed in other previous studies, but the quantitative analysis of the fermentation degree of tea using hyperspectral imaging was achieved in this research. The fermentation degree of tea as the intensity in the image not only provides the spatial information of tea fermentation, but also supplies the variation of fermentation degree of tea during the production process. From experiment results, the performance of the hyperspectral imaging system with MPLSR and MLR provided the quantitative models for the total catechins content of tea. The spatial information of the fermentation degree of tea can be calculated by employing the regression models to the hyperspectral images. The development of the hyperspectral imaging system can be used as a rapid and non-destructive method for the automation and quality monitoring during the tea production.