Individual tree measurements in a planted woodland with terrestrial laser scanner

Yurtseven, Hüseyin; Çoban, Süleyman; Akgül, Mustafa; Akay, Anıl Orhan

doi:10.3906/tar-1805-5

Cited by 7 publications

(7 citation statements)

References 22 publications

(34 reference statements)

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“…Using TLS, Pazhouhan et al (2017) saw a strong relationship between the two methods with an R 2 value of 0.98 for DBH in the Hyrcanian forest. Similarly, Yurtseven et al (2019) found an R 2 value of 0.99 for DBH in Istanbul, Turkey. In another study, Akgül et al (2016) reached an R 2 value of 0.97 for the same measure in Istanbul too.…”

Section: Discussionmentioning

confidence: 81%

“…First, scanning from a fixed position limits usage due to obstructed areas behind large trunks and branches (Leeuwen and Nieuwenhuis, 2010;Bauwens et al, 2016). This so-called occlusion effect may be overcome by scanning from multiple points as Yurtseven et al (2019) did on a forest plot -but it is almost impossible in an FI survey (Oveland et al, 2018), as hundreds of plots are sampled for only one forest enterprise. Other limitations embedded within TLS are its weight as well as equipment acquisition cost.…”

Section: Introductionmentioning

confidence: 99%

“…However, no forestry studies have been conducted using this technology in Turkey until the last few years, mainly due to the limitations of traditional LiDAR instruments described above. Finally, such studies have progressively emerged in Turkey (see Yurtseven et al, 2019;Arslan et al, 2016;Büyüksalih et al, 2017, among others), like in many other developed countries. Akgül et al (2016), for instance, estimated DBH, tree height, and crown base height using TLS on the campus of Istanbul University.…”

Section: Introductionmentioning

confidence: 99%

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Application of handheld laser scanning technology for forest inventory purposes in the NE Turkey

Vatandaşlar¹,

Zeybek²

2020

Turk J Agric For

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Forest inventory (FI) is the most challenging stage of forest management and planning process. Therefore, in situ surveys are often reinforced by modern remote sensing (RS) methods for collecting forestry-related data more efficiently. This study tests a stateof-the-art data collection method for practical use in the Turkish FI system for the first time. To this end, forest sampling plots were conventionally measured to collect dendrometric data from 437 trees in Artvin and Saçınka Forest Enterprises. Then, each plot was scanned using a handheld mobile laser scanning (HMLS) instrument. Finally, HMLS data were compared against ground measurements via basic FI measures. Based on statistical tests, no apparent differences were found between the two datasets at the plot level (P < 0.05). There were also robust correlations for diameter breast height at individual tree level (r > 0.97; P < 0.01). Residual analysis showed that both positive and negative errors had a homogeneous distribution, except for plot 8 where tree stems were in irregular shapes due to anthropogenic pressures. When all plots' data were aggregated, average values for the number of trees, basal area, and timber volume were estimated as 535 trees/ha-1 , 49.6 m 2 /ha-1 , and 499.7 m 3 /ha-1 , respectively. Furthermore, secondary measures such as the number of saplings and slope were successfully retrieved using HMLS method. The highest overestimation was in timber volume with less than 10% difference at the landscape level. The differences were attributed to poor data quality of conventional measurements, as well as marginal site conditions in some plots. We concluded that the HMLS method met the accuracy standards for most FI measures, except for stand height. Thus, the Turkish FI system could benefit from this novel technology, which in turn supports the implementation of sound forest management and planning.

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Section: Discussionmentioning

confidence: 81%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Application of handheld laser scanning technology for forest inventory purposes in the NE Turkey

Vatandaşlar¹,

Zeybek²

2020

Turk J Agric For

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“…Of the 87, only 15 studies worked in the savanna biome [39,145,146]. The most frequently employed methods to derive vegetation attributes are the RANdom SAmple Consensus (RANSAC) algorithm for extracting DBH, stem curve profiles and the detection of stems [97,147], the use of the highest z coordinate of the point cloud for estimating heights [61,148], voxel-based and radiative transfer models for assessing LAI [149,150], Canopy Height Models (CHMs) for delineating crown attributes [91,92], and Quantitative Structure Models (QSMs) for computing tree volume and branch parameters [151,152]. Popular software packages to implement and work with these methods are Lastools [153], Matlab [154], R [155] and Python Programming [156], Cyclone [157], FARO Scene [158], RiscanPro [159], CompuTree [160] and Cloud Compare [161].…”

Section: Methods Used With Tls Point Cloudsmentioning

confidence: 99%

“…Similarly, Calders et al [40] and Chen et al [167] obtained R 2 values of 0.97 when using least squares circle fitting for DBH estimation with a multi-scan TLS scan with 5 positions in a eucalypt open forest and boreal forest respectively. Yurtseven et al [148] obtained an R 2 value of 0.99 with a multi-scan with 8 positions in a Mediterranean forest employing randomised hough transformation with least square regression. In general, multiple TLS scans and a lower stem density yielded the best results [114,168,169].…”

Section: Vegetation Parameters Extracted From Tls Datamentioning

confidence: 99%

Remote Sensing of Savannas and Woodlands

2021

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Measuring tree diameter using a LiDAR-equipped smartphone: a comparison of smartphone- and caliper-based DBH

Gülci

Yurtseven

Akay

et al. 2023

Environ Monit Assess

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Individual tree measurements in a planted woodland with terrestrial laser scanner

Cited by 7 publications

References 22 publications

Application of handheld laser scanning technology for forest inventory purposes in the NE Turkey

Application of handheld laser scanning technology for forest inventory purposes in the NE Turkey

Remote Sensing of Savannas and Woodlands

Measuring tree diameter using a LiDAR-equipped smartphone: a comparison of smartphone- and caliper-based DBH

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