Abstract

The number of leaves in maize plant is one of the key traits describing its growth conditions. It is directly related to plant development and leaf counts also give insight into changing plant development stages. Compared with the traditional solutions which need excessive human interventions, the methods of computer vision and machine learning are more efficient. However, leaf counting with computer vision remains a challenging problem. More and more researchers are trying to improve accuracy. To this end, an automated, deep learning based approach for counting leaves in maize plants is developed in this paper. A Convolution Neural Network(CNN) is used to extract leaf features. The CNN model in this paper is inspired by Google Inception Net V3, which using multi-scale convolution kernels in one convolution layer. To compress feature maps generated from some middle layers in CNN, the Fisher Vector (FV) is used to reduce redundant information. Finally, these encoded feature maps are used to regress the leaf numbers by using Random Forests. To boost the related research, a relatively single maize image dataset (Different growth stage with 2845 samples, which 80% for train and 20% for test) is constructed by our team. The proposed algorithm in single maize data set achieves Mean Square Error (MSE) of 0.32.

Highlights

  • Precision agriculture, which focuses on optimizing production by accounting for variabilities and dealing with uncertainties in agricultural systems, has been under active research in recent years [1].Feature monitoring and plant phenotyping are essential parts of precision agriculture

  • Most study on leaf counting are based on rosette plants, and the relevant algorithms are not suitable for maize plants

  • By observing the different of the maize plant, we find that the image samples with similar leaf numbers in the same species often samples of the maize plant, we find that the image samples with similar leaf numbers in the same have a lot of similarities in shape, size, and shooting angle

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Summary

Introduction

Feature monitoring and plant phenotyping are essential parts of precision agriculture. They can help in modeling the growth process of plants and guide farmers to obtain higher yields with appropriate fertilizer, irrigation, and disease control [2,3]. Traditional plant phenotyping, involves a large number of manual measurements, and this has been identified as the current bottleneck in modern plant breeding and research programs [4]. Most study on leaf counting are based on rosette plants, and the relevant algorithms are not suitable for maize plants. We designed a model suitable for counting maize leaves

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