Features in visible and Fourier transform infrared spectra confronting aspects of meat quality and fraud

Abstract

Rapid assessment of microbiological quality (i.e., Total Aerobic Counts, TAC) and authentication (i.e., fresh vs frozen/thawed) of meat was investigated using spectroscopic-based methods. Data were collected throughout storage experiments from different conditions. In total 526 spectra (Fourier transform infrared, FTIR) and 534 multispectral images (MSI) were acquired. Partial Least Squares (PLS) was applied to select/transform the variables. In the case of FTIR data 30 % of the initial features were used, while for MSI-based models all features were employed. Subsequently, Support Vector Machines (SVM) regression/classification models were developed and evaluated. The performance of the models was evaluated based on the external validation set. In both cases MSI-based models (Root Mean Square Error, RMSE: 0.48–1.08, Accuracy: 91–97 %) were slightly better compared to FTIR (RMSE: 0.83–1.31, Accuracy: 88–94 %). The most informative features of FTIR for the case of quality were mainly in 900–1700 cm−1, while for fraud the features were more dispersed.