Non-Destructive Prediction of Moisture Content and Freezable Water Content of Purple-Fleshed Sweet Potato Slices during Drying Process Using Hyperspectral Imaging Technique

The aim of this study was to investigate the feasibility of hyperspectral imaging in measuring moisture content and freezable water content during drying process. Hyperspectral images were acquired for purple-fleshed sweet potato (PFSP) slices during contact ultrasound assisted hot drying (CUHAD) pr...

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Bibliographic Details
Published in:Food analytical methods 2017-05, Vol.10 (5), p.1535-1546
Main Authors: Sun, Yue, Liu, Yunhong, Yu, Huichun, Xie, Anguo, Li, Xin, Yin, Yong, Duan, Xu
Format: Article
Language:English
Subjects:
Algorithms
Analytical Chemistry
Back propagation
Calibration
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Chemometrics
Dehydration
Drying
Food Science
Hyperspectral imaging
Image acquisition
Microbiology
Moisture content
Neural networks
Nondestructive testing
Potatoes
Predictions
Pretreatment
Quality management
Reflectance
Regression analysis
Regression coefficients
Regression models
Spectra
Sweet potatoes
Water content
Wavelengths
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Summary:The aim of this study was to investigate the feasibility of hyperspectral imaging in measuring moisture content and freezable water content during drying process. Hyperspectral images were acquired for purple-fleshed sweet potato (PFSP) slices during contact ultrasound assisted hot drying (CUHAD) process, and the corresponding mean reflectance spectra from regions of interest in visible and near infrared (371–1023 nm) regions were extracted. Moving average, Savitzky-Golay smoothing filter (S_G filter) and multiplicative scatter correction (MSC) were investigated to preprocess the raw spectra and partial least square regression (PLSR) calibration model was established to analyze the relationship between the extracted spectral data and measured quality attributes. Comparing the performance of model based on different preprocessing methods, the PLSR model with MSC pre-treatment presented better results with coefficients of determination for prediction ( R P 2 ) of 0.9837 and 0.9323 for moisture content and freezable water content, respectively. Instead of selecting full range spectra data, optimal wavelengths were identified based on the regression coefficients (RC) method. Then two linear calibration algorithms named PLSR and multiple linear regression (MLR), and a non-linear calibration algorithm named backpropagation (BP) neural network were used to establish models to predict quality attributes of samples simultaneously. The results showed that the RC-MLR with R P 2 of 0.9359 and 0.8592 was considered as the best for determining moisture content and freezable water content of PFSP slices. Therefore, the study demonstrates the potential of using hyperspectral imaging in tandem with chemometrics analysis as an objective, fast and non-destructive method for predicting the moisture content and freezable water content at different dehydrated times.
ISSN:1936-9751
1936-976X
DOI:10.1007/s12161-016-0722-0