Analysing the vegetation of energy plantsby processing UAV images

IF 0.3 Q4 MATHEMATICS Annales Mathematicae et Informaticae Pub Date : 2020-01-09 DOI:10.33039/ami.2020.01.001
Pap Melinda, Király Sándor, Molják Sándor
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引用次数: 1

Abstract

Bioenergy plants are widely used as a form of renewable energy. It is important to monitor the vegetation and accurately estimate the yield before harvest in order to maximize the profit and reduce the costs of production. The automatic tracking of plant development by traditional methods is quite difficult and labor intensive. Nowadays, the application of Unmanned Aerial Vehicles (UAV) became more and more popular in precision agriculture. Detailed, precise, three-dimensional (3D) representations of energy forestry are required as a prior condition for an accurate assessment of crop growth. Using a small UAV equipped with a multispectral camera, we collected imagery of 1051 pictures of a study area in Kompolt, Hungary, then the Pix4D software was used to create a 3D model of the forest canopy. Remotely sensed data was processed with the aid of Pix4Dmapper to create the orthophotos and the digital surface model. The calculated Normalized Difference Vegetation Index (NDVI) values were also calculated. The aim of this case study was to do the first step towards yield estimation, and segment the created orthophoto, based on tree species. This is required, since different type of trees have different characteristics, thus, their yield calculations may differ. How-ever, the trees in the study area are versatile, there are also hybrids of the same species present. This paper presents the results of several segmentation algorithms, such as those that the widely used eCognition provides and other Matlab implementations of segmentation algorithms.
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利用无人机图像对能源植物植被进行分析
生物能源植物作为一种可再生能源被广泛使用。为了实现利润最大化和降低生产成本,在收获前对植被进行监测和准确估计产量是很重要的。传统的植物生长发育自动跟踪方法难度大,劳动强度大。目前,无人机在精准农业中的应用越来越广泛。详细、精确、三维(3D)的能源林业表示是准确评估作物生长的先决条件。在匈牙利Kompolt研究区,我们使用配备多光谱相机的小型无人机收集了1051张图像,然后使用Pix4D软件创建了森林冠层的三维模型。利用Pix4Dmapper软件对遥感数据进行处理,生成正射影像图和数字地表模型。计算得到归一化植被指数(NDVI)值。本案例研究的目的是向产量估计迈出第一步,并根据树种对创建的正射影像进行分割。这是必需的,因为不同类型的树木具有不同的特性,因此它们的产量计算可能不同。然而,研究区域的树木是多用途的,也有同一物种的杂交品种。本文介绍了几种分割算法的结果,如广泛使用的eCognition提供的分割算法和其他Matlab实现的分割算法。
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