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The Thai Journal of Veterinary Medicine

Abstract

The objective of this study was to develop a predictive model for yolk color measurement using machine learning. A total of eight hundred eggs were randomly collected from thirty laying hens (Lohmann brown, 28–35 weeks). The experimental diets were formulated based on broken rice or corn, and further supplemented with canthaxanthin from 10 to 150 mg/kg. The Digital YolkFan™ was used to classify yolk color scales from 0 to 15, whereas the Hunter Lab was used to measure color values. Furthermore, yolk images were obtained from a digital camera and then extracted into red color, green color and blue (RGB) and hue, saturation and value (HSV). Machine learning, including multiple linear regression, decision tree (DT), support vector machine, artificial neural networks and deep learning were used to develop the predictive models. The accuracy of R2 was greater for the HSV (0.971) than for the Hunter Lab (0.969) and RGB (0.947) approaches. The root mean square error (RMSE) was also lower for HSV than for Hunter Lab and RGB (0.770, 0.805 and 1.055, respectively). Further improvement based on HSV with DT was achieved the highest accuracy (R2 = 0.996) and the lowest statistical error measurements (RMSE = 0.288). In conclusion, the HSV obtained from the digital yolk image provided a suitable color system, with the use of the DT model expected to improve the accuracy of prediction. Therefore, combined digital imagery and machine learning provided a rapid and highly cost-effective technique requiring little human subjectivity for yolk color evaluation.

DOI

10.56808/2985-1130.3412

First Page

109

Last Page

117

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