基于深度学习的智能农业计算机视觉应用方法

IF 8.2 Q1 AGRICULTURE, MULTIDISCIPLINARY
V.G. Dhanya , A. Subeesh , N.L. Kushwaha , Dinesh Kumar Vishwakarma , T. Nagesh Kumar , G. Ritika , A.N. Singh
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引用次数: 30

摘要

农业正在经历快速的数字化转型,并在人工智能和相关技术等尖端方法的支柱下变得越来越强大。作为人工智能的核心,基于深度学习的计算机视觉使各种农业活动能够以最高的精度自动执行,使智能农业成为现实。计算机视觉技术与使用远程相机的高质量图像采集相结合,为农业提供了非接触式和高效的技术驱动解决方案。这篇综述有助于提供基于深度学习的最先进的计算机视觉技术,可以帮助农民从土地准备到收获的操作。本文对计算机视觉领域的最新工作进行了分析,并将其分为(a)种子质量分析,(b)土壤分析,(c)灌溉用水管理,(d)植物健康分析,(e)杂草管理,(f)牲畜管理和(g)产量估算。本文还讨论了计算机视觉的最新趋势,如生成对抗网络(GAN),视觉变压器(ViT)和其他流行的深度学习架构。此外,本研究还指出了在农民现场实时实施这些解决方案所面临的挑战。总体发现表明,卷积神经网络是现代计算机视觉方法的基石,其各种架构在精度和准确性方面为各种农业活动提供了高质量的解决方案。然而,计算机视觉方法的成功在于在高质量的数据集上构建模型并提供实时解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Deep learning based computer vision approaches for smart agricultural applications

The agriculture industry is undergoing a rapid digital transformation and is growing powerful by the pillars of cutting-edge approaches like artificial intelligence and allied technologies. At the core of artificial intelligence, deep learning-based computer vision enables various agriculture activities to be performed automatically with utmost precision enabling smart agriculture into reality. Computer vision techniques, in conjunction with high-quality image acquisition using remote cameras, enable non-contact and efficient technology-driven solutions in agriculture. This review contributes to providing state-of-the-art computer vision technologies based on deep learning that can assist farmers in operations starting from land preparation to harvesting. Recent works in the area of computer vision were analyzed in this paper and categorized into (a) seed quality analysis, (b) soil analysis, (c) irrigation water management, (d) plant health analysis, (e) weed management (f) livestock management and (g) yield estimation. The paper also discusses recent trends in computer vision such as generative adversarial networks (GAN), vision transformers (ViT) and other popular deep learning architectures. Additionally, this study pinpoints the challenges in implementing the solutions in the farmer’s field in real-time. The overall finding indicates that convolutional neural networks are the corner stone of modern computer vision approaches and their various architectures provide high-quality solutions across various agriculture activities in terms of precision and accuracy. However, the success of the computer vision approach lies in building the model on a quality dataset and providing real-time solutions.

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来源期刊
Artificial Intelligence in Agriculture
Artificial Intelligence in Agriculture Engineering-Engineering (miscellaneous)
CiteScore
21.60
自引率
0.00%
发文量
18
审稿时长
12 weeks
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