Apple varieties and growth prediction with time series classification based on deep learning to impact the harvesting decisions

IF 8.2 1区 计算机科学 Q1 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Mustafa Mhamed , Zhao Zhang , Wanjia Hua , Liling Yang , Mengning Huang , Xu Li , Tiecheng Bai , Han Li , Man Zhang
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引用次数: 0

Abstract

Apples are among the most popular fruits globally due to their health and nutritional benefits for humans. Artificial intelligence in agriculture has advanced, but vision, which improves machine efficiency, speed, and production, still needs to be improved. Managing apple development from planting to harvest affects productivity, quality, and economics. In this study, by establishing a vision system platform with a range of camera types that conforms with orchard standard specifications for data gathering, this work provides two new apple collections: Orchard Fuji Growth Stages (OFGS) and Orchard Apple Varieties (OAV), with preliminary benchmark assessments. Secondly, this research proposes the orchard apple vision transformer method (POA-VT), incorporating novel regularization techniques (CRT) that assist us in boosting efficiency and optimizing the loss functions. The highest accuracy scores are 91.56 % for OFGS and 94.20 % for OAV. Thirdly, an ablation study will be conducted to demonstrate the importance of CRT to the proposed method. Fourthly, the CRT outperforms the baselines by comparing it with the standard regularization functions. Finally, time series analyses predict the ‘Fuji’ growth stage, with the outstanding training and validation RMSE being 19.29 and 19.26, respectively. The proposed method offers high efficiency via multiple tasks and improves the automation of apple systems. It is highly flexible in handling various tasks related to apple fruits. Furthermore, it can integrate with real-time systems, such as UAVs and sorting systems. This research benefits the growth of apple’s robotic vision, development policies, time-sensitive harvesting schedules, and decision-making.
利用基于深度学习的时间序列分类进行苹果品种和生长预测,以影响收获决策
苹果因其对人类健康和营养的益处而成为全球最受欢迎的水果之一。农业领域的人工智能已经取得了长足进步,但提高机器效率、速度和产量的视觉技术仍有待改进。管理苹果从种植到收获的整个过程会影响其生产率、质量和经济效益。在这项研究中,通过建立一个视觉系统平台,配备一系列符合果园数据采集标准规范的相机类型,这项工作提供了两种新的苹果采集方法:果园富士生长阶段(OFGS)和果园苹果品种(OAV),并进行初步基准评估。其次,本研究提出了果园苹果视觉转换器方法(POA-VT),并结合了新颖的正则化技术(CRT),帮助我们提高效率并优化损失函数。结果表明,OFGS 和 OAV 的准确率分别达到 91.56% 和 94.20%。第三,将进行一项消融研究,以证明 CRT 对拟议方法的重要性。第四,通过与标准正则化函数比较,CRT 的性能优于基线。最后,时间序列分析预测了 "富士 "生长阶段,训练和验证均方根误差分别为 19.29 和 19.26,表现突出。所提出的方法通过多重任务实现了高效率,提高了苹果系统的自动化程度。它在处理与苹果果实相关的各种任务时具有很高的灵活性。此外,它还能与无人机和分拣系统等实时系统集成。这项研究有利于苹果机器人视觉、开发政策、时间敏感的收获计划和决策的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Computers in Industry
Computers in Industry 工程技术-计算机:跨学科应用
CiteScore
18.90
自引率
8.00%
发文量
152
审稿时长
22 days
期刊介绍: The objective of Computers in Industry is to present original, high-quality, application-oriented research papers that: • Illuminate emerging trends and possibilities in the utilization of Information and Communication Technology in industry; • Establish connections or integrations across various technology domains within the expansive realm of computer applications for industry; • Foster connections or integrations across diverse application areas of ICT in industry.
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