Automated Measurement of Air Bubbles Dispersion in Ice Cream Using Machine Learning Methods

Q3 Economics, Econometrics and Finance Food Processing: Techniques and Technology Pub Date : 2023-09-29 DOI:10.21603/2074-9414-2023-3-2448
Igor Korolev
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Abstract

Ice cream is a popular cold dessert. Its air phase consists of tiny bubbles with an average diameter of 15–60 µm. New ice cream formulations depend on the way the composition and production factors affect the air phase. As a result, ice cream producers need new time-saving and reliable methods to determine dispersion. The research objective was to create a computer program for marking the position of centers and diameter of air bubbles on microscopic images of a bounding circle type. The review part included 20 years of Russian and English publications on microscopic research methods in ice cream production indexed in Web of Science and Russian Research Citation Index. Microscopic images of ice cream air phase were obtained using an Olympus CX41RF microscope with a magnification of ×100. The automatic markup program employed the Python programming language, the Keras machine learning library, and the TensorFlow framework. The models were trained using the NVIDIA GTX video accelerator. The review showed that the dispersion of ice cream air phase depends on its composition and the freezing parameters whereas bubble formation is usually described in line with the existing foaming theories. A training data set was obtained by manual labeling of microscopic images. The optimal number channels in the convolutional layers of a neural network with LeNet-type architecture was determined, which made it possible to classify images as spheres or non-spheres with an accuracy of ≥ 0.995. The sliding window method helped to determine the limits of the neural network triggering for the sliding window method were determined, which reached 7.5% of the diameter with lateral displacement and 12.5% with scaling. The developed algorithm automatically marked bubbles on microscopic images. The error in determining the average diameter was below 1.8%. The new method for automated calculation of the number and diameter of air bubbles in ice cream proved to be user-friendly. It can be found in public domain, and researchers are free to adapt it to solve various computer vision issues.
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利用机器学习方法自动测量冰淇淋中的气泡分散
冰淇淋是一种很受欢迎的冷甜点。其气相由平均直径为15-60 μ m的微小气泡组成。新的冰淇淋配方取决于成分和生产因素对气相的影响。因此,冰淇淋生产商需要新的省时可靠的方法来测定分散度。研究目的是创建一个计算机程序,用于在边界圆类型的显微图像上标记气泡的中心位置和直径。 综述部分包括在Web of Science和Russian research Citation Index中检索的20年来关于冰淇淋生产微观研究方法的俄文和英文出版物。冰淇淋气相的显微图像是用奥林巴斯CX41RF显微镜获得的,放大倍数为×100。自动标记程序使用了Python编程语言、Keras机器学习库和TensorFlow框架。这些模型使用NVIDIA GTX视频加速器进行训练。研究表明,冰淇淋气相的分散取决于其成分和冷冻参数,而气泡的形成通常是根据现有的发泡理论来描述的。通过手工标记显微图像获得训练数据集。确定了lenet型神经网络卷积层的最优通道数,使图像分类为球体或非球体的准确率达到≥0.995。滑动窗方法帮助确定了滑动窗方法的神经网络触发极限,横向位移时达到直径的7.5%,缩放时达到直径的12.5%。该算法在显微图像上自动标记气泡。测定平均直径的误差在1.8%以下。 这种自动计算冰淇淋中气泡数量和直径的新方法被证明是用户友好的。它可以在公共领域找到,研究人员可以自由地调整它来解决各种计算机视觉问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Food Processing: Techniques and Technology
Food Processing: Techniques and Technology Engineering-Industrial and Manufacturing Engineering
CiteScore
1.40
自引率
0.00%
发文量
82
审稿时长
12 weeks
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