Litcius/Paper detail

Quality control of fresh strawberries by a random forest model

Michele Nayara Ribeiro, Iago A. Carvalho, Gabriel Aparecido Fonseca, Rafael Carvalho do Lago, Lenízy CR Rocha, Danton Diego Ferreira, Eduardo Valério de Barros Vilas Boas, Ana Carla Marques Pinheiro

2021Journal of the Science of Food and Agriculture24 citationsDOI

Abstract

BACKGROUND: Strawberry quality is one of the most important factors that guarantees consistent commercialization of the fruit and ensures the consumer's satisfaction. This work makes innovative use of random forest (RF) to predict sensory measures of strawberries using physical and physical-chemical variables. Furthermore, it also employs these same physical and physical-chemical variables to classify strawberries in the classes "satisfied" or "not satisfied" and "would pay more" or "wouldn't pay more. The RF-based model predicts the acceptance, expectation, ideal of sweetness, ideal of acidity, and the ideal of succulence based on the physical and physical-chemical data. Then, the predicted parameters are used as input for the RF-based classification model. RESULTS: > 0.72 and a root-mean-squared error (RMSE) smaller than 0.17 for the prediction task, which indicates that one can estimate the sensory measures of strawberries using physical and physical-chemical data. Furthermore, the RF was able to classify 87.95% of the strawberry samples correctly into the classes 'satisfied' and 'not satisfied' and 78.99% in the classes 'would pay more' or 'would not pay more'. A two-step RF model, which employed both physical and physical-chemical data to classify strawberry samples regarding the consumer's response also correctly classified 100% and 90.32% of the samples with respect to consumers' satisfaction and their willingness to pay more, respectively. CONCLUSION: The results indicate that the developed models can be used in the quality control of strawberries, supporting the establishment of quality standards that consider the consumer's response. The proposed methodology can be extended to control the sensory quality of other fruits. © 2021 Society of Chemical Industry.

Topics & Concepts

Random forestQuality (philosophy)StatisticsMathematicsSweetnessMean squared errorControl (management)Computer scienceFood scienceMachine learningArtificial intelligenceChemistryTastePhilosophyEpistemologySpectroscopy and Chemometric AnalysesAdvanced Chemical Sensor TechnologiesSmart Agriculture and AI