Image processing has recently been adopted for fruit damage detection in post-harvest operations. Through the implementation of hard-coded feature extraction algorithms, high accuracy has been found. The present study tested the fast and operational convolution neural networks with 'YOLO v3' architecture using the online platform Supervise.ly to detect on pear fruit 'Abbe Fetel' physiological disorders such as superficial scald. Two different models were trained: I) one to detect the individual pear fruits within the batches; II) one to detect superficial scald or senescence scald on pear skin. Preliminary statistics show that the model to count the fruit inside the batches reaches an accuracy of 64.70% with a 0.5 of Intersection of Units. The second one has less accuracy (up to 20% of true positive) but maintains a good level of average precision (0.6) with different confidence thresholds (0.4 and 0.2). Further research is needed to improve the accuracy of both models and to map quality pre-and post-harvest. These results will help the packing house to manage fruit batches and to ensure good fruit quality for consumers.

Bonora A., Trevisani E., Bresilla K., Corelli Grappadelli L., Bortolotti G., Manfrini L. (2020). Convolutional Neural Networks for Detection of Storage Disorders on 'Abbe Fetel' pears. Institute of Electrical and Electronics Engineers Inc. [10.1109/MetroAgriFor50201.2020.9277561].

Convolutional Neural Networks for Detection of Storage Disorders on 'Abbe Fetel' pears

Bonora A.
;
Bresilla K.;Corelli Grappadelli L.;Bortolotti G.;Manfrini L.
2020

Abstract

Image processing has recently been adopted for fruit damage detection in post-harvest operations. Through the implementation of hard-coded feature extraction algorithms, high accuracy has been found. The present study tested the fast and operational convolution neural networks with 'YOLO v3' architecture using the online platform Supervise.ly to detect on pear fruit 'Abbe Fetel' physiological disorders such as superficial scald. Two different models were trained: I) one to detect the individual pear fruits within the batches; II) one to detect superficial scald or senescence scald on pear skin. Preliminary statistics show that the model to count the fruit inside the batches reaches an accuracy of 64.70% with a 0.5 of Intersection of Units. The second one has less accuracy (up to 20% of true positive) but maintains a good level of average precision (0.6) with different confidence thresholds (0.4 and 0.2). Further research is needed to improve the accuracy of both models and to map quality pre-and post-harvest. These results will help the packing house to manage fruit batches and to ensure good fruit quality for consumers.
2020
2020 IEEE International Workshop on Metrology for Agriculture and Forestry, MetroAgriFor 2020 - Proceedings
309
313
Bonora A., Trevisani E., Bresilla K., Corelli Grappadelli L., Bortolotti G., Manfrini L. (2020). Convolutional Neural Networks for Detection of Storage Disorders on 'Abbe Fetel' pears. Institute of Electrical and Electronics Engineers Inc. [10.1109/MetroAgriFor50201.2020.9277561].
Bonora A.; Trevisani E.; Bresilla K.; Corelli Grappadelli L.; Bortolotti G.; Manfrini L.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/792164
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