Evaluation and Detection of Gaps in Curved Sugarcane Planting Lines in Aerial Images

2020 IEEE Canadian Conference on Electrical and Computer Engineering (CCECE) Pub Date : 2020-08-30 DOI:10.1109/CCECE47787.2020.9255701

B. M. Rocha, G. S. Vieira, Afonso U. Fonseca, H. Pedrini, N. M. Sousa, Fabrízzio Soares

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引用次数: 4

Abstract

Sugarcane is one of the main crops in the world due to the economic value it promotes by selling its derivatives. A diversity of technologies has been developed to optimize agricultural activities and maximize the productivity of sugarcane crops. In this sense, our primary goal is to contribute to this research area by detecting planting lines and measuring their faults, including the evaluation of curved lines that substantially limit numerous solutions in practical applications. An automatic method that identifies and measures sugarcane planting lines through digital image processing techniques and machine learning algorithms is presented. The proposal is evaluated using a database of real scene images, which were classified by K-Nearest Neighbors (KNN) and prepared with the support of a small unmanned aerial vehicle (UAV). Experimental tests show a low relative error of approximately 1.65% compared to manual mapping in the planting regions. It means that our proposal can identify and measure planting lines accurately, which enables automated inspections with high precision measurements.

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航空影像中甘蔗种植曲线间隙的评价与检测

甘蔗是世界上主要的农作物之一，因为它通过出售其衍生物来促进经济价值。已经开发了多种技术来优化农业活动并最大限度地提高甘蔗作物的生产力。从这个意义上说，我们的主要目标是通过检测种植线和测量其故障来为这一研究领域做出贡献，包括对实际应用中大量限制解决方案的曲线的评估。提出了一种利用数字图像处理技术和机器学习算法自动识别和测量甘蔗种植线的方法。该方案使用真实场景图像数据库进行评估，该数据库由k -最近邻(KNN)分类，并在小型无人机(UAV)的支持下准备。实验结果表明，与人工作图相比，该方法在种植区的相对误差较低，约为1.65%。这意味着我们的建议可以准确地识别和测量种植线，从而实现高精度测量的自动检查。

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2020 IEEE Canadian Conference on Electrical and Computer Engineering (CCECE)

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