基于人工神经网络的气调包装熟肉制品模拟培养基中细菌生长预测模型。

Artificial neural network-based predictive model for bacterial growth in a simulated medium of modified-atmosphere-packed cooked meat products.

作者信息

Lou W, Nakai S

机构信息

Food, Nutrition and Health, Faculty of Agricultural Sciences, The University of British Columbia, 6650 Northwest Marine Drive, Vancouver, British Columbia V6T 1Z4, Canada.

出版信息

J Agric Food Chem. 2001 Apr;49(4):1799-804. doi: 10.1021/jf000650m.

DOI:10.1021/jf000650m

PMID:11308328

Abstract

The data of Devilieghere et al. (Int. J. Food Microbiol. 1999, 46, 57--70) on bacterial growth in a simulated medium of modified-atmosphere-packed cooked meat products was processed for estimating maximum specific growth rate mu(max) and lag phase lambda of Lactobacillus sake using artificial neural networks-based model (ANNM) computation. The comparison between ANNM and response surface methodology (RSM) model showed that the accuracy of ANNM prediction was higher than that of RSM. Two-dimensional and three-dimensional plots of the response surfaces revealed that the relationships of water activity a(w), temperature T, and dissolved CO(2) concentration with mu(max) and lambda were complicated, not just linear or second-order relations. Furthermore, it was possible to compute the sensitivity of the model outputs against each input parameter by using ANNM. The results showed that mu(max) was most sensitive to a(w), T, and dissolved CO(2) in this order; whereas lambda was sensitive to T the most, followed by a(w), and dissolved CO(2) concentrations.

摘要

对Devilieghere等人（《国际食品微生物学杂志》，1999年，第46卷，第57 - 70页）关于气调包装熟肉制品模拟培养基中细菌生长的数据进行处理，以使用基于人工神经网络的模型（ANNM）计算来估计清酒乳杆菌的最大比生长速率μ(max)和延迟期λ。ANNM与响应面法（RSM）模型之间的比较表明，ANNM预测的准确性高于RSM。响应面的二维和三维图显示，水分活度a(w)、温度T和溶解CO₂浓度与μ(max)和λ之间的关系很复杂，并非只是线性或二阶关系。此外，使用ANNM可以计算模型输出对每个输入参数的敏感性。结果表明，μ(max)对a(w)、T和溶解CO₂的敏感性依次最高；而λ对T最敏感，其次是a(w)和溶解CO₂浓度。

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基于人工神经网络的气调包装熟肉制品模拟培养基中细菌生长预测模型。

Artificial neural network-based predictive model for bacterial growth in a simulated medium of modified-atmosphere-packed cooked meat products.

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