Beck T, Gatternig B, Delgado A (2023)
Publication Type: Journal article
Publication year: 2023
Book Volume: 9
Article Number: e22039
Journal Issue: 11
DOI: 10.1016/j.heliyon.2023.e22039
The determination of the drying degree of food residues on surfaces is an important step before efficient cleaning can be achieved. To accomplish this goal, a rapid evaluation based on a neural network and non-invasive measurement technique is introduced. Two common starch-based products and various yogurts from different manufacturers are used as example contaminants to determine the aging time of dried food residue. Near-infrared spectroscopy serves as a modern and fast measurement technique for investigating food compositions. Two analysis methods were compared for processing the measured near-infrared spectral data. The raw data were analyzed using partial least squares regression in conjunction with necessary preprocessing steps. As an alternative method, three different types of neural networks are employed. The aim of this approach is to compensate for the filtering steps before regression, which are typically necessary for multivariate regression. The challenge is to measure three different types of food and obtain a reliable prediction of moisture content in order to draw conclusions about the drying time. The experiments have shown that simple flat neural networks have similar accuracy compared to conventional regression. The use of a convolutional layer in advance demonstrates a significant improvement in prediction compared to other neural networks and even manages to surpass the accuracy of PLS regression. A network with a convolutional layer can also compensate for the sometimes strong variations between food types.
APA:
Beck, T., Gatternig, B., & Delgado, A. (2023). Neural network enhanced aging time measurements of diary product remaining with infrared spectroscopy. Heliyon, 9(11). https://dx.doi.org/10.1016/j.heliyon.2023.e22039
MLA:
Beck, Tobias, Bernhard Gatternig, and Antonio Delgado. "Neural network enhanced aging time measurements of diary product remaining with infrared spectroscopy." Heliyon 9.11 (2023).
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