Abstract
Maize tassels play a critical role in plant growth and yield. Extensive RGB images obtained using unmanned aerial vehicle (UAV) and the prevalence of deep learning provide a chance to improve the accuracy of detecting maize tassels. We used images from UAV, a mobile phone, and the Maize Tassel Counting dataset (MTC) to test the performance of faster region-based convolutional neural network (Faster R-CNN) with residual neural network (ResNet) and a visual geometry group neural network (VGGNet). The results showed that the ResNet, as the feature extraction network, was better than the VGGNet for detecting maize tassels from UAV images with 600 × 600 resolution. The prediction accuracy ranged from 87.94% to 94.99%. However, the prediction accuracy was less than 87.27% from the UAV images with 5280 × 2970 resolution. We modified the anchor size to [852, 1282, 2562] in the region proposal network according to the width and height of pixel distribution to improve detection accuracy up to 89.96%. The accuracy reached up to 95.95% for mobile phone images. Then, we compared our trained model with TasselNet without training their datasets. The average difference of tassel number was 1.4 between the calculations with 40 images for the two methods. In the future, we could further improve the performance of the models by enlarging datasets and calculating other tassel traits such as the length, width, diameter, perimeter, and the branch number of the maize tassels.
Highlights
By 2050, agricultural production will need to be doubled to meet food demands because of population growth [1]
Fast and accurate identification is important for a better understanding of the phenotypic traits of maize tassels
The results demonstrated that ResNet101 was the best for maize tassel detection, with an average precision (AP) of 94.99%
Summary
By 2050, agricultural production will need to be doubled to meet food demands because of population growth [1]. Maize is one of the most important cereal crops in the world. Maize plants are capable of natural pollination, but self-pollination is not ideal. Continuous monitoring of maize tassel growth can ensure the security, quality, and yield of maize [2]. Tassel recognition in breeding mainly depended on human efforts, which was time-consuming, labor-intensive, and with limited sample sizes. Fast and accurate identification is important for a better understanding of the phenotypic traits of maize tassels
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