Multi-Scale Attention Network for Vertical Seed Distribution in Soybean Breeding Fields.

IF 7.6 1区 农林科学 Q1 AGRONOMY
Plant Phenomics Pub Date : 2024-11-10 eCollection Date: 2024-01-01 DOI:10.34133/plantphenomics.0260
Tang Li, Pieter M Blok, James Burridge, Akito Kaga, Wei Guo
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引用次数: 0

Abstract

The increase in the global population is leading to a doubling of the demand for protein. Soybean (Glycine max), a key contributor to global plant-based protein supplies, requires ongoing yield enhancements to keep pace with increasing demand. Precise, on-plant seed counting and localization may catalyze breeding selection of shoot architectures and seed localization patterns related to superior performance in high planting density and contribute to increased yield. Traditional manual counting and localization methods are labor-intensive and prone to error, necessitating more efficient approaches for yield prediction and seed distribution analysis. To solve this, we propose MSANet: a novel deep learning framework tailored for counting and localization of soybean seeds on mature field-grown soy plants. A multi-scale attention map mechanism was applied to maximize model performance in seed counting and localization in soybean breeding fields. We compared our model with a previous state-of-the-art model using the benchmark dataset and an enlarged dataset, including various soybean genotypes. Our model outperforms previous state-of-the-art methods on all datasets across various soybean genotypes on both counting and localization tasks. Furthermore, our model also performed well on in-canopy 360° video, dramatically increasing data collection efficiency. We also propose a technique that enables previously inaccessible insights into the phenotypic and genetic diversity of single plant vertical seed distribution, which may accelerate the breeding process. To accelerate further research in this domain, we have made our dataset and software publicly available: https://github.com/UTokyo-FieldPhenomics-Lab/MSANet.

用于大豆育种田垂直种子分配的多尺度注意力网络。
全球人口的增长导致对蛋白质的需求翻了一番。大豆(Glycine max)是全球植物蛋白供应的主要来源,需要不断提高产量以满足日益增长的需求。精确的植株上种子计数和定位可促进育种选择与高种植密度下优异性能相关的芽结构和种子定位模式,并有助于提高产量。传统的人工计数和定位方法耗费大量人力且容易出错,因此需要更高效的方法来进行产量预测和种子分布分析。为了解决这个问题,我们提出了 MSANet:一种新颖的深度学习框架,专为大豆成熟田间种植植株上的大豆种子计数和定位而定制。我们采用了多尺度注意力图机制,以最大限度地提高模型在大豆育种田种子计数和定位中的性能。我们使用基准数据集和包括各种大豆基因型在内的扩大数据集,将我们的模型与之前最先进的模型进行了比较。在各种大豆基因型的所有数据集上,我们的模型在计数和定位任务上都优于之前的先进方法。此外,我们的模型在树冠内 360° 视频上也表现出色,大大提高了数据收集效率。我们还提出了一种技术,能让人们深入了解以前无法获得的单株垂直种子分布的表型和遗传多样性,从而加快育种进程。为了加快该领域的进一步研究,我们已将数据集和软件公开:https://github.com/UTokyo-FieldPhenomics-Lab/MSANet。
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来源期刊
Plant Phenomics
Plant Phenomics Multiple-
CiteScore
8.60
自引率
9.20%
发文量
26
审稿时长
14 weeks
期刊介绍: Plant Phenomics is an Open Access journal published in affiliation with the State Key Laboratory of Crop Genetics & Germplasm Enhancement, Nanjing Agricultural University (NAU) and published by the American Association for the Advancement of Science (AAAS). Like all partners participating in the Science Partner Journal program, Plant Phenomics is editorially independent from the Science family of journals. The mission of Plant Phenomics is to publish novel research that will advance all aspects of plant phenotyping from the cell to the plant population levels using innovative combinations of sensor systems and data analytics. Plant Phenomics aims also to connect phenomics to other science domains, such as genomics, genetics, physiology, molecular biology, bioinformatics, statistics, mathematics, and computer sciences. Plant Phenomics should thus contribute to advance plant sciences and agriculture/forestry/horticulture by addressing key scientific challenges in the area of plant phenomics. The scope of the journal covers the latest technologies in plant phenotyping for data acquisition, data management, data interpretation, modeling, and their practical applications for crop cultivation, plant breeding, forestry, horticulture, ecology, and other plant-related domains.
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