Data acquisition for testing potential detection of Flavescence dorée with a designed, affordable multispectral camera

Q3 Engineering

Telfor Journal Pub Date : 2023-01-01 DOI:10.5937/telfor2301002b

Marko Barjaktarović, Massimo Santoni, Michele Faralli, Massimo Bertamini, Lorenzo Bruzzone

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引用次数: 0

Abstract

There is a constant push on agriculture to produce more food and other inputs for different industries. Precision agriculture is essential to meet these demands. The intake of this modern technology is rapidly increasing among large and medium-sized farms. However, small farms still struggle with their adaptation due to the expensive initial costs. A contribution in handling this challenge, this paper presents data gathering for testing an in-house made, cost-effective, multispectral camera to detect Flavescence dorée (FD). FD is a grapevine disease that, in the last few years, has become a major concern for grapevine producers across Europe. As a quarantine disease, mandatory control procedures, such as uprooting infected plants and removing all vineyard if the infection is higher than 20%, lead to an immense economic loss. Therefore, it is critical to detect each diseased plant promptly, thus reducing the expansion of Flavescence dorée. Data from two vineyards near Riva del Garda, Trentino, Italy, was acquired in 2022 using multispectral and hyperspectral cameras. The initial finding showed that there is a possibility to detect Flavescence dorée using Linear discriminant analysis (LDA) with hyperspectral data, obtaining an accuracy of 96.6 %. This result justifies future investigation on the use of multispectral images for Flavescence dorée detection.

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数据采集测试的潜在检测与设计，价格合理的多光谱相机

不断推动农业生产更多的粮食和其他投入到不同的行业。精准农业对满足这些需求至关重要。大中型农场对这种现代技术的采用正在迅速增加。然而，由于昂贵的初始成本，小农场仍在努力适应。为了应对这一挑战，本文介绍了用于测试内部制造的、具有成本效益的多光谱相机的数据收集方法，以检测黄斑变性(FD)。FD是一种葡萄藤疾病，在过去的几年里，已经成为整个欧洲葡萄藤生产商的主要关注点。作为一种检疫性疾病，强制性控制程序，如连根拔起受感染的植物，如果感染率高于20%，则将所有葡萄园移走，会导致巨大的经济损失。因此，及时发现每一株病株是至关重要的，这样可以减少黄萎病的蔓延。数据来自意大利Trentino Riva del Garda附近的两个葡萄园，于2022年使用多光谱和高光谱相机获得。初步结果表明，利用高光谱数据进行线性判别分析(LDA)检测黄酮是可行的，准确率达96.6%。这一结果证明了在未来的研究中使用多光谱图像来检测黄萎病。

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

Telfor Journal Engineering-Media Technology

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

23 weeks

期刊介绍： The TELFOR Journal is an open access international scientific journal publishing improved and extended versions of the selected best papers initially reported at the annual TELFOR Conference (www.telfor.rs), papers invited by the Editorial Board, and papers submitted by authors themselves for publishing. All papers are subject to reviewing. The TELFOR Journal is published in the English language, with both electronic and printed versions. Being an IEEE co-supported publication, it will follow all the IEEE rules and procedures. The TELFOR Journal covers all the essential branches of modern telecommunications and information technology: Telecommunications Policy and Services, Telecommunications Networks, Radio Communications, Communications Systems, Signal Processing, Optical Communications, Applied Electromagnetics, Applied Electronics, Multimedia, Software Tools and Applications, as well as other fields related to ICT. This large spectrum of topics accounts for the rapid convergence through telecommunications of the underlying technologies towards the information and knowledge society. The Journal provides a medium for exchanging research results and technological achievements accomplished by the scientific community from academia and industry.