Multi-modal fusion and multi-task deep learning for monitoring the growth of film-mulched winter wheat

IF 5.4 2区 农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY
Zhikai Cheng, Xiaobo Gu, Yadan Du, Chunyu Wei, Yang Xu, Zhihui Zhou, Wenlong Li, Wenjing Cai
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引用次数: 0

Abstract

The precision monitoring of film-mulched winter wheat growth facilitates field management optimization and further improves yield. Unmanned aerial vehicle (UAV) is an effective tool for crop monitoring at the field scale. However, due to the interference of background effects caused by soil and mulch, achieving accurate monitoring of crop growth in complex backgrounds for UAV remains a challenge. Additionally, the simultaneous inversion of multiple growth parameters helped us to comprehensively monitor the overall crop growth status. This study conducted field experiments including three winter wheat mulching treatments: ridge mulching, ridge–furrow full-mulching, and flat cropping full-mulching. Three machine learning algorithms (partial least squares, ridge regression, and support vector machines) and deep neural network were employed to process the vegetation indices (VIs) feature data, and the residual neural network 50 (ResNet 50) was used to process the image data. Then the two modalities (VI feature data and image data) were fused to obtain a multi-modal fusion (MMF) model. Meanwhile, a film-mulched winter wheat growth monitoring model that simultaneously predicted leaf area index (LAI), aboveground biomass (AGB), plant height (PH), and leaf chlorophyll content (LCC) was constructed by coupling multi-task learning techniques. The results showed that the image-based ResNet 50 outperformed the VI feature-based model. The MMF improved prediction accuracy for LAI, AGB, PH, and LCC with coefficients of determination of 0.73–0.92, mean absolute errors of 0.29–3.89 and relative root mean square errors of 9.48–12.99%. A multi-task MMF model with the same loss weight distribution ([1/4, 1/4, 1/4, 1/4]) achieved comparable accuracy to the single-task MMF model, improving training efficiency and providing excellent generalization to different film-mulched sample areas. The novel technique of the multi-task MMF model proposed in this study provides an accurate and comprehensive method for monitoring the growth status of film-mulched winter wheat.

Abstract Image

多模态融合和多任务深度学习用于监测薄膜覆盖冬小麦的生长情况
对覆膜冬小麦生长的精确监测有助于优化田间管理,进一步提高产量。无人飞行器(UAV)是田间作物监测的有效工具。然而,由于土壤和地膜造成的背景效应干扰,无人飞行器在复杂背景下实现对作物生长的精确监测仍是一项挑战。此外,同时反演多个生长参数有助于我们全面监测作物的整体生长状况。本研究进行了田间试验,包括三种冬小麦地膜覆盖处理方法:脊覆地膜、脊沟全覆地膜和平茬全覆地膜。采用三种机器学习算法(偏最小二乘法、脊回归和支持向量机)和深度神经网络处理植被指数(VIs)特征数据,并使用残差神经网络 50(ResNet 50)处理图像数据。然后将两种模式(植被指数特征数据和图像数据)进行融合,得到多模式融合(MMF)模型。同时,通过耦合多任务学习技术,构建了同时预测叶面积指数(LAI)、地上生物量(AGB)、株高(PH)和叶片叶绿素含量(LCC)的薄膜覆盖冬小麦生长监测模型。结果表明,基于图像的 ResNet 50 优于基于 VI 特征的模型。MMF 提高了对 LAI、AGB、PH 和 LCC 的预测精度,其决定系数为 0.73-0.92,平均绝对误差为 0.29-3.89,相对均方根误差为 9.48-12.99%。具有相同损耗权重分布([1/4, 1/4, 1/4, 1/4])的多任务 MMF 模型的准确度与单任务 MMF 模型相当,提高了训练效率,并对不同覆膜样品区域具有良好的泛化能力。本研究提出的多任务 MMF 模型新技术为监测覆膜冬小麦的生长状况提供了一种准确而全面的方法。
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来源期刊
Precision Agriculture
Precision Agriculture 农林科学-农业综合
CiteScore
12.30
自引率
8.10%
发文量
103
审稿时长
>24 weeks
期刊介绍: Precision Agriculture promotes the most innovative results coming from the research in the field of precision agriculture. It provides an effective forum for disseminating original and fundamental research and experience in the rapidly advancing area of precision farming. There are many topics in the field of precision agriculture; therefore, the topics that are addressed include, but are not limited to: Natural Resources Variability: Soil and landscape variability, digital elevation models, soil mapping, geostatistics, geographic information systems, microclimate, weather forecasting, remote sensing, management units, scale, etc. Managing Variability: Sampling techniques, site-specific nutrient and crop protection chemical recommendation, crop quality, tillage, seed density, seed variety, yield mapping, remote sensing, record keeping systems, data interpretation and use, crops (corn, wheat, sugar beets, potatoes, peanut, cotton, vegetables, etc.), management scale, etc. Engineering Technology: Computers, positioning systems, DGPS, machinery, tillage, planting, nutrient and crop protection implements, manure, irrigation, fertigation, yield monitor and mapping, soil physical and chemical characteristic sensors, weed/pest mapping, etc. Profitability: MEY, net returns, BMPs, optimum recommendations, crop quality, technology cost, sustainability, social impacts, marketing, cooperatives, farm scale, crop type, etc. Environment: Nutrient, crop protection chemicals, sediments, leaching, runoff, practices, field, watershed, on/off farm, artificial drainage, ground water, surface water, etc. Technology Transfer: Skill needs, education, training, outreach, methods, surveys, agri-business, producers, distance education, Internet, simulations models, decision support systems, expert systems, on-farm experimentation, partnerships, quality of rural life, etc.
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