Detection of Curved Rows and Gaps in Aerial Images of Sugarcane Field Using Image Processing Techniques

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
Bruno Moraes Rocha;Gabriel S. Vieira;Afonso U. Fonseca;Naiane M. Sousa;Helio Pedrini;Fabrizzio Soares
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引用次数: 1

Abstract

Sugarcane is one of the main crops in the world due to its economic value promoted by the sale of its derivatives, such as bioethanol and sugar. In order to achieve greater economic performance and productivity in the sugarcane field, several digital image processing studies have been conducted on sugarcane field images. However, mapping and measuring gaps in the planting rows are still being performed manually on-site to determine whether to replant the entire area or only the gaps. High cost of time and manpower is required to perform the manual measurement. Based on that, the aim of this study is to present a novel method to detect crop rows and measure gaps in crop fields. Our method is also able to deal with curved crop rows, which is a real problem and substantially limits numerous solutions in practical applications. The proposed method is evaluated using a mosaic of real scene image that was prepared with the support of a small remotely piloted aircraft. Experimental tests showed a low relative error of approximately 1.65% compared to manual mapping in the planting regions, even for regions with gaps in the curved crop rows. It means that our proposal can identify and measure crop rows accurately, which enables automated inspections with high-precision measurements.
利用图像处理技术检测甘蔗田航空图像中的弯曲行和间隙
甘蔗是世界上的主要作物之一,因为其衍生物(如生物乙醇和糖)的销售提高了甘蔗的经济价值。为了在甘蔗田实现更高的经济效益和生产力,已经对甘蔗田图像进行了几项数字图像处理研究。然而,仍在现场手动绘制和测量种植行的间隙,以确定是重新种植整个区域还是只种植间隙。进行手动测量需要高成本的时间和人力。在此基础上,本研究的目的是提出一种新的方法来检测作物行和测量农田中的间隙。我们的方法也能够处理弯曲的作物行,这是一个真实的问题,并在实际应用中大大限制了许多解决方案。使用在小型遥控飞机的支持下准备的真实场景图像的马赛克来评估所提出的方法。实验测试表明,与种植区域的手动绘图相比,即使是弯曲作物行中有间隙的区域,相对误差也很低,约为1.65%。这意味着我们的提案可以准确识别和测量作物行,从而实现高精度测量的自动化检查。
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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CiteScore
3.70
自引率
0.00%
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