Detection of Sedge Weeds Infestation in Wetland Rice Cultivation Using Hyperspectral Images and Artificial Intelligence: A Review

IF 0.6 Q3 MULTIDISCIPLINARY SCIENCES

Pertanika Journal of Science and Technology Pub Date : 2024-04-04 DOI:10.47836/pjst.32.3.18

Muhamad Noor Hazwan Abd Manaf, A. S. Juraimi, Mst. Motmainna, Nik Norasma Che’Ya, A. S. Mat Su, Muhammad Huzaifah Mohd Roslim, Anuar Ahmad, Nisfariza Mohd Noor

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引用次数: 0

Abstract

Sedge is one type of weed that can infest the rice field, as well as broadleaf and grasses. If sedges are not appropriately controlled, severe yield loss will occur due to increased competition with cultivated rice for light, space, nutrients, and water. Both sedges and grasses are monocots and have similar narrowed leaf characteristics, but most sedge stems have triangular prismatic shapes in cross sections, which differ them from grasses. Event sedges and grasses differ in morphology, but differentiating them in rice fields is challenging due to the large rice field area and high green color similarity. In addition, climate change makes it more challenging as the distribution of sedge weed infestation is influenced by surrounding abiotic factors, which lead to changes in weed control management. With advanced drone technology, agriculture officers or scientists can save time and labor in distributing weed surveys in rice fields. Using hyperspectral sensors on drones can increase classification accuracy and differentiation between weed species. The spectral signature of sedge weed species captured by the hyperspectral drone can generate weed maps in rice fields to give the sedge percentage distribution and location of sedge patch growth. Researchers can propose proper countermeasures to control the sedge weed problem with this information. This review summarizes the advances in our understanding of the hyperspectral reflectance of weedy sedges in rice fields. It also discusses how they interact with climate change and phenological stages to predict sedge invasions.

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利用高光谱图像和人工智能检测湿地水稻种植中的莎草：综述

莎草是一种可侵扰稻田的杂草，也可侵扰阔叶和禾本科植物。如果不对莎草进行适当的控制，由于莎草与栽培稻争夺光照、空间、养分和水分的竞争加剧，会造成严重的产量损失。莎草和禾本科植物都是单子叶植物，具有相似的狭叶特征，但大多数莎草茎的横截面呈三角棱形，这是其与禾本科植物的不同之处。虽然莎草和禾本科植物在形态上存在差异，但由于稻田面积大、绿色相似度高，因此在稻田中区分莎草和禾本科植物非常困难。此外，由于莎草杂草的分布受周围非生物因素的影响，导致杂草防除管理发生变化，气候变化使这一工作更具挑战性。利用先进的无人机技术，农业官员或科学家可以节省在稻田中分布杂草调查的时间和劳动力。在无人机上使用高光谱传感器可以提高分类的准确性和区分杂草的种类。高光谱无人机捕捉到的莎草杂草物种光谱特征可以生成稻田杂草地图，提供莎草百分比分布和莎草斑块生长位置。研究人员可根据这些信息提出适当的对策，控制莎草问题。本综述总结了我们在了解稻田杂草莎草的高光谱反射率方面取得的进展。它还讨论了它们如何与气候变化和物候期相互作用，以预测莎草的入侵。

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

Pertanika Journal of Science and Technology MULTIDISCIPLINARY SCIENCES-

CiteScore

1.50

自引率

16.70%

发文量

178

期刊介绍： Pertanika Journal of Science and Technology aims to provide a forum for high quality research related to science and engineering research. Areas relevant to the scope of the journal include: bioinformatics, bioscience, biotechnology and bio-molecular sciences, chemistry, computer science, ecology, engineering, engineering design, environmental control and management, mathematics and statistics, medicine and health sciences, nanotechnology, physics, safety and emergency management, and related fields of study.