Testing the Agreement Between a Traditional and UAV-Based Method for Quantifying Skips in Suboptimal Cotton Stands

IF 1.2 4区 农林科学 Q3 AGRICULTURAL ENGINEERING Journal of the ASABE Pub Date : 2023-01-01 DOI:10.13031/ja.14760
Enrique Eduardo Pena Martinez, J. Ward, G. Collins, Natalie Nelson
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Abstract

Highlights Agreement in the mean difference between the traditional and the UAV-based method only occurred in poor stands. Effects of different sampling sizes between methods were evident in mediocre-to-good stand assessments. Abstract. When suboptimal cotton stands occur, growers face the decision to accept or reject the stand. The replanting decision is difficult because the tradeoffs associated with replanting expenditures and reduced yields are difficult to objectively assess. Traditional methods like visual assessments and manual counts of cotton stands are commonly used to support a replanting decision. Typically, manual counts of skip size and frequency will provide more accurate assessments of the stand than visual assessments, but they are cumbersome to conduct and may not provide clear evidence that a replant is needed. Still, manual counts are popular among cotton farmers and the scientific community. Skip counts generated with the help of unmanned aerial vehicles (UAV) are less popular among cotton growers but provide more coverage and a larger sampling size across a given field. Therefore, UAVs have the potential to overcome the limitations associated with traditional methods. The motivation behind this study is to inform readers if manual methods can still be used for accurate decision-making regarding the replanting decision. More specifically, we study the interchangeability, or agreement, between a manual and a UAV-based method using Bland-Altman plots. Each method quantified skips greater than or equal to 0.91 m at different sampling sizes. Treatment plots varied in their stand counts, skip size, and skip frequency. Agreement between both methods was only found in the lowest stand treatment, where skips of large sizes were predominant. Conversely, methods disagreed in the higher stand where skips greater than or equal to 0.91 m were scarce. Keywords: Agriculture, Altman, Bland, Drone, Gaps, Precision, Remote, Sensing, UAS.
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传统方法与无人机方法在次优棉田跳跃量化中的一致性检验
传统方法和基于无人机的方法在平均差异上的一致仅发生在较差的林分。在中度至良好林分评价中,不同采样大小对林分评价的影响是明显的。摘要当出现次优棉田时,种植者面临接受或拒绝棉田的决定。重新种植的决策是困难的,因为很难客观地评估与重新种植的支出和减少的产量相关的权衡。传统的方法,如目测评估和人工计数棉花架,通常用于支持重新种植的决定。通常,人工计数跳跃大小和频率将比目测评估提供更准确的林分评估,但它们进行起来很麻烦,并且可能无法提供需要补种的明确证据。尽管如此,手工计数在棉农和科学界还是很受欢迎的。在无人驾驶飞行器(UAV)的帮助下产生的跳跃计数在棉花种植者中不太受欢迎,但在给定的田地中提供了更多的覆盖范围和更大的抽样规模。因此,无人机有潜力克服与传统方法相关的局限性。这项研究背后的动机是告诉读者人工方法是否仍然可以用于重新种植决策的准确决策。更具体地说,我们研究了使用Bland-Altman图的手动和基于无人机的方法之间的互换性或一致性。每种方法都量化了在不同采样规模下大于或等于0.91 m的跳变。处理样地的林分数、跳跃大小和跳跃频率各不相同。两种方法之间的一致性仅在最低林分处理中发现,在最低林分处理中,大尺寸的跳跃占主导地位。相反,在海拔较高的林分,很少有大于或等于0.91 m的跳跃。关键词:农业,奥特曼,布兰德,无人机,差距,精度,遥感,无人机。
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