2023
DOI: 10.3390/su15129583
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Maize Seedling Leave Counting Based on Semi-Supervised Learning and UAV RGB Images

Abstract: The number of leaves in maize seedlings is an essential indicator of their growth rate and status. However, manual counting of seedlings is inefficient and limits the scope of the investigation. Deep learning has shown potential for quickly identifying seedlings, but it requires larger, labeled datasets. To address these challenges, we proposed a method for counting maize leaves from seedlings in fields using a combination of semi-supervised learning, deep learning, and UAV digital imagery. Our approach levera… Show more

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Cited by 8 publications
(6 citation statements)
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“…For instance, Vong et al and Gao et al [35] employed the U-Net and Mask R-CNN models, respectively, for image segmentation. In another approach involving the use of object detection techniques in deep learning, Liu et al [34] selected YOLOv3, while Xu et al [36] and Cardellicchio et al [67] opted for YOLOv5 for accurate crop quantity estimations. In this study, UHDI-OD employed YOLOv8 for maize object detection and, subsequently, when combined with the measured planting areas, the maize planting densities were obtained (Figure 6).…”
Section: Advantages Of the Proposed Methodsmentioning
confidence: 99%
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“…For instance, Vong et al and Gao et al [35] employed the U-Net and Mask R-CNN models, respectively, for image segmentation. In another approach involving the use of object detection techniques in deep learning, Liu et al [34] selected YOLOv3, while Xu et al [36] and Cardellicchio et al [67] opted for YOLOv5 for accurate crop quantity estimations. In this study, UHDI-OD employed YOLOv8 for maize object detection and, subsequently, when combined with the measured planting areas, the maize planting densities were obtained (Figure 6).…”
Section: Advantages Of the Proposed Methodsmentioning
confidence: 99%
“…Additionally, training YOLO models imposes certain demands on computational resources. In previous studies applying deep learning models for maize quantity estimations, the UAV flight heights were typically chosen to be in the range of 5-20 m [34,36,70], indicating the strict requirements of the UHDI-OD method for ultrahigh-definition digital images. Acquiring such ultrahigh-definition digital images often involves the use of UAV-carried RGB digital cameras for low-altitude image collection, which might pose challenges for monitoring large-scale field planting densities within a reasonable period.…”
Section: Applicable Scenarios Of the Proposed Methodsmentioning
confidence: 99%
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“…Casado et al [41] extended object detection to semi-supervised semantic segmentation, aiming to segment mature grapes in vineyards. Xu et al [42], utilizing YOLOv5X, constructed a semi-supervised semantic segmentation model for Maize Seedling Leaf counting. Johanson et al [43] introduced S3AD, a semi-supervised detection system based on contextual attention and selective tiling, addressing small apple detection.…”
Section: Introductionmentioning
confidence: 99%
“…It showed superiority in wheat ear count, corn tassel count, and validation of sorghum ear count, but had a slower detection speed. Xu X et al [24] proposed a semi-supervised learning framework based on Noisy Student that uses YOLOv5x to identify and count maize leaves after first segmenting entire maize seedlings and creating foreground images with background eliminated using the SOLOv2 model. This method requires only a modest amount of labeled data, reducing the amount of work required for early data annotation.…”
Section: Introductionmentioning
confidence: 99%