Guo Wei, Zheng Bangyou, Potgieter Andries B, Diot Julien, Watanabe Kakeru, Noshita Koji, Jordan David R, Wang Xuemin, Watson James, Ninomiya Seishi, Chapman Scott C
International Field Phenomics Research Laboratory, Institute for Sustainable Agro-ecosystem Services, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo, Japan.
Agriculture and Food - Commonwealth Scientific and Industrial Research Organisation, St Lucia, QLD, Australia.
Front Plant Sci. 2018 Oct 23;9:1544. doi: 10.3389/fpls.2018.01544. eCollection 2018.
Sorghum ( L. Moench) is a C4 tropical grass that plays an essential role in providing nutrition to humans and livestock, particularly in marginal rainfall environments. The timing of head development and the number of heads per unit area are key adaptation traits to consider in agronomy and breeding but are time consuming and labor intensive to measure. We propose a two-step machine-based image processing method to detect and count the number of heads from high-resolution images captured by unmanned aerial vehicles (UAVs) in a breeding trial. To demonstrate the performance of the proposed method, 52 images were manually labeled; the precision and recall of head detection were 0.87 and 0.98, respectively, and the coefficient of determination ( ) between the manual and new methods of counting was 0.84. To verify the utility of the method in breeding programs, a geolocation-based plot segmentation method was applied to pre-processed ortho-mosaic images to extract >1000 plots from original RGB images. Forty of these plots were randomly selected and labeled manually; the precision and recall of detection were 0.82 and 0.98, respectively, and the coefficient of determination between manual and algorithm counting was 0.56, with the major source of error being related to the morphology of plants resulting in heads being displayed both within and outside the plot in which the plants were sown, i.e., being allocated to a neighboring plot. Finally, the potential applications in yield estimation from UAV-based imagery from agronomy experiments and scouting of production fields are also discussed.
高粱(L. Moench)是一种C4热带禾本科植物,在为人类和牲畜提供营养方面发挥着重要作用,特别是在降雨条件较差的环境中。穗发育的时间和单位面积内的穗数是农学和育种中需要考虑的关键适应性性状,但测量起来既耗时又费力。我们提出了一种基于机器的两步图像处理方法,用于在育种试验中从无人机(UAV)拍摄的高分辨率图像中检测和计算穗数。为了证明所提方法的性能,对52张图像进行了人工标注;穗检测的精度和召回率分别为0.87和0.98,人工计数和新计数方法之间的决定系数( )为0.84。为了验证该方法在育种计划中的实用性,将基于地理位置的地块分割方法应用于预处理后的正射镶嵌图像,以从原始RGB图像中提取1000多个地块。随机选择其中四十个地块并进行人工标注;检测的精度和召回率分别为0.82和0.98,人工计数和算法计数之间的决定系数为0.56,主要误差来源与植物形态有关,导致穗出现在播种植物的地块内外,即被分配到相邻地块。最后,还讨论了该方法在农艺学实验和生产田勘查的无人机图像产量估计中的潜在应用。
