A new deep-learning strawberry instance segmentation methodology based on a fully convolutional neural network

Instance segmentation is one of the image processing problems where deep learning techniques are beginning to show potential. In agriculture, one of its main application is automatic fruit harvesting. This study focuses on its application on strawberry crops, where the development of automatic harve...

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Vydáno v:Neural computing & applications Ročník 33; číslo 22; s. 15059 - 15071
Hlavní autoři: Perez-Borrero, Isaac, Marin-Santos, Diego, Vasallo-Vazquez, Manuel J., Gegundez-Arias, Manuel E.
Médium: Journal Article
Jazyk:angličtina
Vydáno: London Springer London 01.11.2021
Springer Nature B.V
Témata:
Algorithms
Artificial Intelligence
Artificial neural networks
Centroids
Computational Biology/Bioinformatics
Computational Science and Engineering
Computer Science
Data Mining and Knowledge Discovery
Deep learning
Harvest
Harvesting
Image processing
Image Processing and Computer Vision
Image segmentation
Instance segmentation
Machine learning
Mean
Methodology
Neural networks
Probability and Statistics in Computer Science
Real time
Review Article
Strawberries
Instance segmentation
Deep learning
Centroid prediction-based approach for instance segmentation
Strawberry segmentation
ISSN:0941-0643, 1433-3058
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Shrnutí:Instance segmentation is one of the image processing problems where deep learning techniques are beginning to show potential. In agriculture, one of its main application is automatic fruit harvesting. This study focuses on its application on strawberry crops, where the development of automatic harvesting machines is of particular interest. At present, the reference methodology to deal with instance segmentation is Mask R-CNN. However, Mask R-CNN requires a large processing power which limits its implementation in real-time systems. This work proposes a new methodology to carry out instance segmentation of strawberries based on the use of a fully convolutional neural network. Instance segmentation is achieved by adding two new channels to the network output so that each strawberry pixel predicts the centroid of its strawberry. The final segmentation of each strawberry is obtained by applying a grouping and filtering algorithm. The methodology was tested using the publicly available StrawDI_Db1 database. The evaluation results show values of mean average precision (mAP) and mean instance intersection over union (I 2 oU) of 52.61 and 93.38, respectively, with a processing speed of 30 fps. These figures mean an increase in precision higher than 15% and a fps rate six times higher than those obtained in the reference methodologies based on Mask R-CNN. Therefore, the methodology presented in this paper can be considered as the latest reference methodology for strawberry segmentation, meeting the precision and speed requirements needed for it to be used in the automatic strawberry harvesting systems that work in real time.
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ISSN:0941-0643
1433-3058
DOI:10.1007/s00521-021-06131-2