多模态光片光学系统在植物病理学中的应用

光学与光子学期刊(英文) Pub Date : 2021-05-08 DOI:10.4236/OPJ.2021.115009

M. Sangare, M. Hébert, A. Cazier, P. Chavel

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引用次数: 1

摘要

由于透镜技术、制造技术和数据处理能力的提高，光学仪器的设计是一个活跃的课题。将其应用于植物病理学还有很多工作要做，这对于改善马里等国家的作物生长监测尤其有用。一种用于植物样品的光学多模态系统已经开发出来，以改进叶片疾病症状的表征，提供有关其影响的信息，并避免其传播。可能便宜的组件(激光器、透镜、转盘、照相机和样品、滤光片、透镜、照相机和计算机)已经被选择、组装并在光学台上排列成一个多模态系统，在传输、反射、扩散和荧光中工作。照明和观察角度可以调整，以优化四种模式下的观看条件。这一科学贡献是设计和实现光学仪器的开端。初步结果已经显示出来，现在将与非洲国家的农艺实验室合作，对与当时气候条件有关的特定植物疾病进行试验。

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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Design of a Multimodal Light Sheet Optical System for Multivariate Applications in Phytopathology

The design of optical instruments is an active subject due to improvement in lens techniques, fabrication technology, and data handling capacity. Much remains to do to expand its application to phytopathology, which would be in particular quite useful to improve crop growth monitoring in countries like Mali. An optical multimodal system for plant samples has been developed to improve the characterization of leaf disease symptoms, provide information on their effects, and avoid their spread. Potentially inexpensive components (laser, lens, turntables camera and sample, filter, lens, camera and computer) have been selected, assembled and aligned on an optical table into a multimodal system operating in transmission, reflection, diffusion and fluorescence. The illumination and observation angles can be adjusted to optimize viewing conditions in the four modes. This scientific contribution has been an initiation into the design and implementation of an optical instrument. Initial results are shown and will now be extended in cooperation with agronomic laboratories in African countries for tests on specific plant diseases in relation with prevailing climate conditions.

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来源期刊

光学与光子学期刊(英文)

自引率

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发文量

431