C. Torresan, F. Pelleri, M. Manetti, C. Becagli, Cristiano Castaldi, Monica Notarangelo, U. Chiavetta
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We computed the volume of stem sections 1.00 m long by integrating the most performing TLS-based taper equation and by the Huber, Smalian and cone formulas applied on the diameter and height values measured with the traditional field surveys. We conducted the analysis of error distribution in volume estimates computed integrating the most performing TLS-based taper function along the stem. We tested if the differences in the volume estimate of the two methods were significant. Schumacher and Hall (1933) equation was the most performing taper function both in case of using TLS and traditional surveyed data , being the TLS-based function more performant (rRMSE = 9.17% vs 6.90%). Its performance did not increase when diameter values were extracted from TLS point clouds with a higher frequency (i.e. 25.0 cm vs 1.00 m). 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引用次数: 3
摘要
传统上,锥度方程是通过对树木进行破坏性采样收集的测量数据发展而来的。地面激光扫描(TLS)可以实现单株树木参数测量的高精度,避免树木砍伐。在这项研究中,我们想要评估两种校准锥度函数的方法的性能:使用从TLS点云提取的茎直径,以及使用传统和常用的森林仪器在不同树高下测量。在意大利托斯卡纳地区Amiata山的欧洲山毛榉(Fagus sylvatica L.)森林中,我们比较了利用TLS和传统调查数据建立的4个锥度方程的性能。通过整合最有效的基于ls的锥度方程,以及应用于传统现场调查测量的直径和高度值的Huber、Smalian和锥度公式,我们计算了1.00 m长茎段的体积。我们对体积估计值中的误差分布进行了分析,该估计值集成了沿管柱最有效的基于tls的锥度函数。我们检验了两种方法在体积估计上的差异是否显著。Schumacher and Hall(1933)方程是使用TLS和传统调查数据时表现最好的锥形函数,基于TLS的函数表现更好(rRMSE = 9.17% vs 6.90%)。对基于TLS的Schumacher和Hall(1933)函数进行积分,发现误差最大的区段为茎高5.00 ~ 7.00 m(即RMSE为14.72 ~ 19.14 dm 3, rRMSE为13.00 ~ 17.76%)。本研究案例首次尝试利用从TLS点云中提取的茎直径和高度值来建立阿米亚塔山欧洲山毛榉的锥度方程。结果表明,TLS与传统的避免树木倒下的方法产生相同的茎体积估计。
Comparison of TLS against traditional surveying method for stem taper modelling. A case study in European beech (Fagus sylvatica L.) forests of mount Amiata
Traditionally, taper equations are developed from measurements collected through a destructive sampling of trees. Terrestrial laser scanning (TLS) enables high levels of accuracy of individual tree parameters measurement avoiding tree felling. With this study, we wanted to assess the performance of two approaches to calibrate a taper function: using stem diameters extracted from TLS point clouds and measured at different tree heights with the traditional and usual forest instruments. We compared the performance of four taper equations built with data collected by TLS and traditional survey in a European beech ( Fagus sylvatica L.) forests of mount Amiata (Tuscany Region, Italy). We computed the volume of stem sections 1.00 m long by integrating the most performing TLS-based taper equation and by the Huber, Smalian and cone formulas applied on the diameter and height values measured with the traditional field surveys. We conducted the analysis of error distribution in volume estimates computed integrating the most performing TLS-based taper function along the stem. We tested if the differences in the volume estimate of the two methods were significant. Schumacher and Hall (1933) equation was the most performing taper function both in case of using TLS and traditional surveyed data , being the TLS-based function more performant (rRMSE = 9.17% vs 6.90%). Its performance did not increase when diameter values were extracted from TLS point clouds with a higher frequency (i.e. 25.0 cm vs 1.00 m). By integrating the TLS-based Schumacher and Hall (1933) function, the sections with the highest error resulted from 5.00 to 7.00 m of stem height (i.e. RMSE from 14.72 to 19.14 dm 3 and rRMSE from 13.00 to 17.76%). This study case represents the first attempts to develop a taper equation for European beech of mount Amiata using values of stem diameter and height extracted from the TLS point cloud. The results demonstrated that TLS produces the same stem volume estimates as traditional method avoiding falling trees.