Felipe Vivian P S, Silva Martinho A, Valente Bruno D, Rosa Guilherme J M
Department of Animal Sciences, University of Wisconsin - Madison, Wisconsin 53706
Department of Animal Sciences, Federal University of Jequitinhonha and Mucuri Valleys, Minas Gerais - Brazil.
Poult Sci. 2015 Apr;94(4):772-80. doi: 10.3382/ps/pev031. Epub 2015 Feb 22.
The prediction of total egg production (TEP) potential in poultry is an important task to aid optimized management decisions in commercial enterprises. The objective of the present study was to compare different modeling approaches for prediction of TEP in meat type quails (Coturnix coturnix coturnix) using phenotypes such as weight, weight gain, egg production and egg quality measurements. Phenotypic data on 30 traits from two lines (L1, n=180; and L2, n=205) of quail were modeled to predict TEP. Prediction models included multiple linear regression and artificial neural network (ANN). Moreover, Bayesian network (BN) and a stepwise approach were used as variable selection methods. BN results showed that TEP is independent from other earlier expressed traits when conditioned on egg production from 35 to 80 days of age (EP1). In addition, the prediction accuracy was much lower when EP1 was not included in the model. The best predictive model was ANN, after feature selection, showing prediction correlations of r=0.792 and r=0.714 for L1 and L2, respectively. In conclusion, machine learning methods may be useful, but reasonable prediction accuracies are obtained only when partial egg production measurements are included in the model.
预测家禽的总产蛋量(TEP)潜力是一项重要任务,有助于商业企业做出优化管理决策。本研究的目的是比较不同的建模方法,利用体重、体重增加、产蛋量和蛋品质测量等表型来预测肉用型鹌鹑(日本鹌鹑)的TEP。对来自两个鹌鹑品系(L1,n = 180;L2,n = 205)的30个性状的表型数据进行建模,以预测TEP。预测模型包括多元线性回归和人工神经网络(ANN)。此外,贝叶斯网络(BN)和逐步法被用作变量选择方法。BN结果表明,当以35至80日龄的产蛋量(EP1)为条件时,TEP与其他早期表达的性状无关。此外,当模型中不包括EP1时,预测准确性要低得多。经过特征选择后,最佳预测模型是ANN,L1和L2的预测相关性分别为r = 0.792和r = 0.714。总之,机器学习方法可能有用,但只有在模型中纳入部分产蛋量测量值时,才能获得合理的预测准确性。
