Erik Næsset scite author profile

Abstract:The objective of the "Tree Extraction" project organized by EuroSDR (European Spatial data Research) and ISPRS (International Society of Photogrammetry and Remote Sensing) was to evaluate the quality, accuracy, and feasibility of automatic tree extraction methods, mainly based on laser scanner data. In the final report of the project, Kaartinen and Hyyppä (2008) reported a high variation in the quality of the published methods under boreal forest conditions and with varying laser point densities. This paper summarizes the findings beyond the final report after analyzing the results obtained in different tree height classes. Omission/Commission statistics as well as neighborhood relations are taken into account. Additionally, four automatic tree detection and extraction techniques were added to the test. Several methods in this experiment were superior to manual processing in the dominant, co-dominant and suppressed tree storeys. In general, as expected, the taller the tree, the better the location accuracy. The accuracy of tree height, after removing gross errors, was better than 0.5 m in all tree height classes with the best methods investigated in this experiment. For forest inventory, minimum curvature-based tree detection accompanied by point cloud-based cluster detection for suppressed trees is a solution that deserves attention in the future.

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Lidar sampling for large-area forest characterization: A review

Wulder

White

Nelson

et al. 2012

Remote Sensing of Environment

612

347

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Practical large-scale forest stand inventory using a small-footprint airborne scanning laser

Næsset

2004

Scandinavian Journal of Forest Research

464

317

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Erik Næsset

Predicting forest stand characteristics with airborne scanning laser using a practical two-stage procedure and field data

An International Comparison of Individual Tree Detection and Extraction Using Airborne Laser Scanning

Lidar sampling for large-area forest characterization: A review

Practical large-scale forest stand inventory using a small-footprint airborne scanning laser

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