Abstract
Fermentation is the key process to produce the special color of congou black tea. The machine vision technology is applied to detect the color space changes of black tea’s color in RGB, Lab and HSV, and to find out its relevance to black tea’s fermentation quality. And then the color feature parameter is used as input to establish physicochemical indexes (TFs, TRs, and TBs) and sensory features’ linear and non-linear quantitative evaluation model. Results reveal that color features are significantly correlated to quality indices. Compared with the other two color models (RGB and HSV), CIE Lab model can better reflect the dynamic variation features of quality indices and foliage color information of black tea. The predictability of non-linear models (RF and SVM) is superior to PLS linear model, while RF model presents a slight advantage over the classic SVM model since RF model can better represent the quantitative analytical relationship between image information and quality indices. This research has proved that computer image color features and non-linear method can be used to quantitatively evaluate the changes of quality indices (e.g. sensory quality) and the pigment during black tea’s fermentation. Besides, the test is simple, fast, and nondestructive.
Highlights
The results showed a correlation between the results of electronic nose detection and sensory evaluation[22]
Linear (PLS) and nonlinear (SVM and Random forest (RF)) are applied in this research to establish a model for the quantitative evaluation of pigment substances (TFs, TRs, and TBs) and sensory quality
The results shows that color features and quality indices have significant differences at different periods of fermentation, but they are significantly correlated
Summary
Chunwang Dong[1], Gaozhen Liang[1,2], Bin Hu2, Haibo Yuan[1], Yongwen Jiang[1], Hongkai Zhu1,3 & Jiangtao Qi2. This research has proved that computer image color features and non-linear method can be used to quantitatively evaluate the changes of quality indices (e.g. sensory quality) and the pigment during black tea’s fermentation. From the perspective of tea leaf biochemistry, red stain is a result of pigment’s dynamic transition from polyphenols to TFs, TRs, and TBs3,10 This kind of color change can be observed and distinguished by human visual system, but it is very hard to determine the specific scale[11]. Linear (PLS) and nonlinear (SVM and RF) are applied in this research to establish a model for the quantitative evaluation of pigment substances (TFs, TRs, and TBs) and sensory quality This model can realize the rapid characterization of the key quality indices during fermentation, providing a new thought and a novel technical approach for the prediction of fermentation quality and the study of special instruments
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