人工枸杞枣果束图像合成:走向稀疏自动化

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING Journal of the ASABE Pub Date : 2023-01-01 DOI:10.13031/ja.15217
Or Bar-Shira1, Yosef Cohen, T. Shoshan, A. Bechar, A. Sadowsky, Yuval Cohen, S. Berman
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引用次数: 0

摘要

Medjool枣果束可以基于结构分解和贝塞尔曲线的使用在3D中建模。该三维模型可用于生成Medjool果束的人工图像数据集。带注释的图像数据集可用于开发机器人Medjool日期细化的鲁棒算法。确定所需细化长度的算法是Medjool日期细化自动化的先决条件。摘要Medjool是一种优质的枣品种,市场需要高质量的水果,为此需要具体的园艺实践,包括及时和有效的水果修剪。目前,修剪果实是麦珠栽培周期中最劳动密集型的任务之一,有必要开发自动化修剪过程的方法。确定所需细化的算法是实现细化自动化的先决条件。使用最先进的机器学习方法开发这样的算法需要一个带注释的Medjool水果束图像数据集。获取这样的数据集既困难又昂贵。使用合成图像可以减轻这一困难。然而,目前合成植物图像的方法由于其几何特征而不适合Medjool枣。目前的工作提出了一种基于结构分解为植物部分和使用贝塞尔曲线的3D模型生成Medjool水果束的人工图像的方法。定义了19个模型变量及其分布,用于果串模型生成。模型和基于模型生成的合成图像由两位植物生理学家进行了验证,他们是Medjool枣种植专家。从生成的图像中提取果束特征,并使用核估计来学习细化后所需的小穗剩余长度。对两个轮期组合(Top-Early和Middle-Middle)的图像进行了估计测试。两个时期的平均比例绝对估计误差都非常低(小于1%)。
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Artificial Medjool Date Fruit Bunch Image Synthesis: Towards Thinning Automation
Highlights Medjool date fruit bunches can be modeled in 3D based on structural decomposition and the use of Bezier curves. The 3D model can be used for generating artificial image datasets of Medjool fruit bunches. The annotated image datasets can be used to develop robust algorithms for robotic Medjool date thinning. Algorithms for determining the required thinning length are a prerequisite for Medjool date thinning automation. Abstract. Medjool is a premium date cultivar, and the market demands high-quality fruits, for which specific horticultural practices, including timely and efficient fruitlet thinning, are required. Currently, thinning the fruitlets is one of the most labor-intensive tasks in the Medjool cultivation cycle, and there is a need to develop methods for automating the thinning process. An algorithm determining the required thinning is a prerequisite for advancing toward thinning automation. An annotated Medjool fruit bunch image dataset is necessary for developing such an algorithm using state-of-the-art machine learning methods. Acquiring such a dataset is difficult and costly. The difficulty can be alleviated by using synthetic images. However, current methods for generating synthetic plant images are unsuitable for Medjool dates due to their geometrical features. The current work suggests a method for generating artificial images of Medjool fruit bunches from a 3D model based on structural decomposition into plant parts and the use of Bezier curves. Nineteen model variables and their distributions were defined for fruit bunch model generation. The models and synthetic images generated based on the models were verified by two plant physiologists who are experts in Medjool date cultivation. Fruit-bunch features were extracted from the generated images and used for learning the required remaining length of the spikelets after thinning using kernel estimation. The estimation was tested for images of two whorl-period combinations (Top-Early and Middle-Middle). The average scaled absolute estimation errors for both periods were very low (less than 1%).
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