2021
DOI: 10.5194/isprs-archives-xliii-b2-2021-763-2021
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A Case Study of the Application of Hand-Held Mobile Laser Scanning in the Planning of an Italian Forest (Alpe Di Catenaia, Tuscany)

Abstract: Abstract. Precision forestry is becoming a key sector for forest planning because it allows complex analyses of forest data to be carried out simply and economically. It contributes to the integration between technicians and operators in the sector by guaranteeing the transparency of the forest management operations (Corona et al., 2017). In the context of the progressive development of technology, we investigated the feasibility of using the hand-held mobile laser scanner (HMLS) system in different types of f… Show more

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Cited by 5 publications
(3 citation statements)
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“…During an HMLS scan, the operator stands in the middle of the test area and waits 15 s for the instrument to find its stability. Then, with the handheld scanner in hand, the operator starts walking inside the sampling area while the rotating head of the scanner captures the 3D data, following a star-shaped walking path (Figure 2), the path demonstrated to best capture data according to a recent bibliography (Sofia et al, 2021;Gollob et al, 2020;Bauwens et al, 2016;Del Perugia et al, 2019). Scanning time is 10-15 min for each circular test plot.…”
Section: Data Sourcementioning
confidence: 99%
“…During an HMLS scan, the operator stands in the middle of the test area and waits 15 s for the instrument to find its stability. Then, with the handheld scanner in hand, the operator starts walking inside the sampling area while the rotating head of the scanner captures the 3D data, following a star-shaped walking path (Figure 2), the path demonstrated to best capture data according to a recent bibliography (Sofia et al, 2021;Gollob et al, 2020;Bauwens et al, 2016;Del Perugia et al, 2019). Scanning time is 10-15 min for each circular test plot.…”
Section: Data Sourcementioning
confidence: 99%
“…Recently, commercial under-canopy mobile 3D LiDAR systems integrated with SLAM techniques have become available. Several studies investigated the performance of these commercial systems, including (i) the backpack/handheld LiDAR systems developed by Emesent Hovermap Ltd. (Australia) (Hartley et al, 2022), (ii) the handheld LiDAR systems developed by GeoSLAM Ltd. (UK) (Sofia et al, 2021), and (iii) the backpack LiDAR systems developed by Digital Green Valley Technology Ltd. (China) (Xie et al, 2022). These systems have shown promising results for forest inventory applications.…”
Section: Introductionmentioning
confidence: 99%
“…Most geomatic techniques (conventional traverse surveying and GNSS [1], LiDAR [2], photogrammetry [3], remote sensing [4], geographical information systems [5]) have been used, in recent years, to characterize forests' and trees' planimetric positions. In particular, the development of remote sensing technology in recent decades has been revolutionary for forestry applications (acronyms and symbols are reported in Appendix A).…”
Section: Introductionmentioning
confidence: 99%