4.7 Article

Assessment of the Content of Dry Matter and Dry Organic Matter in Compost with Neural Modelling Methods

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AGRICULTURE-BASEL
卷 11, 期 4, 页码 -

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MDPI
DOI: 10.3390/agriculture11040307

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neural modelling; neuron image analysis; dry matter and dry organic matter in compost; features of the composted material

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  1. Ministry of Science and Higher Education Republic of Poland [N313 270938]

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Neural image analysis is commonly used in scientific research, such as assessing food quality and composting processes. The study identified key features in composted material images and developed neural models to effectively evaluate the content of dry matter and dry organic matter. Neural models for compost images in mixed light showed better qualitative characteristics.
Neural image analysis is commonly used to solve scientific problems of biosystems and mechanical engineering. The method has been applied, for example, to assess the quality of foodstuffs such as fruit and vegetables, cereal grains, and meat. The method can also be used to analyse composting processes. The scientific problem lets us formulate the research hypothesis: it is possible to identify representative traits of the image of composted material that are necessary to create a neural model supporting the process of assessment of the content of dry matter and dry organic matter in composted material. The effect of the research is the identification of selected features of the composted material and the methods of neural image analysis resulted in a new original method enabling effective assessment of the content of dry matter and dry organic matter. The content of dry matter and dry organic matter can be analysed by means of parameters specifying the colour of compost. The best developed neural models for the assessment of the content of dry matter and dry organic matter in compost are: in visible light RBF 19:19-2-1:1 (test error 0.0922) and MLP 14:14-14-11-1:1 (test error 0.1722), in mixed light RBF 30:30-8-1:1 (test error 0.0764) and MLP 7:7-9-7-1:1 (test error 0.1795). The neural models generated for the compost images taken in mixed light had better qualitative characteristics.

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