Bison muscle discrimination and color stability prediction using near-infrared hyperspectral imaging

Abstract

A novel photonics-based multivariate pattern recognition technique is presented to segregate bison meat samples based on muscle type, ageing, and retail display period. The technique uses color attributes obtained from visible to near-infrared hyperspectral images (400–1000\xa0nm) to predict the stability of bison muscle samples. Unsupervised and supervised classification methods were implemented with an aim to discriminate muscle samples based on muscle type, ageing period, and retail display period. The wavelength region from 500 to 690\xa0nm which is associated with the a∗ value in the CIE Lab color space was found to be significantly important for the classification of muscle samples over the storage period. Partial least squares discriminant analysis (PLS-DA) demonstrated classification accuracies from 0.88 to 0.94 for the classification of muscle type, ageing period and retail display followed by development of classification maps. For the estimation of color changes in the muscle samples over the storage and retail display period, a∗ value was predicted with an R2 of calibration of 0.89, and R2 of cross-validation of 0.88. Conclusively, the wavelength range from 550 to 690\xa0nm can significantly contribute to sorting and predicting freshness of bison muscle samples based on muscle type, color stability and storage period.