Ground point extraction by iterative labeling of airborne LiDAR data in a forested area

Given that the distribution of trees is irregular and individual trees differ from one another, applying a Digital Terrain Model (DTM) for cityscapes to a forest inventory causes many errors. In this study, a new DTM-generating technique that utilizes airborne Light Detection And Ranging (LiDAR), wi...

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Published in	KSCE journal of civil engineering Vol. 19; no. 7; pp. 2233 - 2239
Main Authors	Kim, Yongmin, Eo, Yang Dam
Format	Journal Article
Language	English
Published	Seoul Korean Society of Civil Engineers 01.11.2015 Springer Nature B.V 대한토목학회
Subjects	Civil Engineering Engineering Filtration Forests Geotechnical Engineering & Applied Earth Sciences Industrial Pollution Prevention Iterative methods Labeling Lidar Morphology Physiographic features Recovery Surveying and Geo-Spatial Information Engineering Terrain models Trees 토목공학 refinement recovery DTM mean planar filtering
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ISSN	1226-7988 1976-3808
DOI	10.1007/s12205-015-0319-y

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Abstract	Given that the distribution of trees is irregular and individual trees differ from one another, applying a Digital Terrain Model (DTM) for cityscapes to a forest inventory causes many errors. In this study, a new DTM-generating technique that utilizes airborne Light Detection And Ranging (LiDAR), with iterative labeling for recovery of ground points, is proposed to solve the inaccuracy problem that occurs when DTMs are generated in forested areas. The proposed method consists of three steps: (1) generation of the initial DTM by a process that performs mean planar filtering and multireturn filtering, (2) recovery of ground points by iterative labeling through application of a ground extraction filter and limitation conditions, and (3) refinement to create the final DTM. The proposed method was tested at the experimental site with morphological and TerraScan DTM-generating techniques, followed by a visual assessment and a quantitative accuracy assessment through comparison with in-situ data. In the visual assessment, the proposed method exhibits such advantages as less noise and more precise representation of topographic features. Also, the method shows excellent performance in improving the average absolute deviation values of 110.3 cm and 50.4 cm over the morphological method and the TerraScan method, respectively, in the quantitative assessment. Thus, the proposed method is judged to have successfully solved the inaccuracy problem that often occurs with generation of DTMs for a forested area.
AbstractList	Given that the distribution of trees is irregular and individual trees differ from one another, applying a Digital Terrain Model (DTM) for cityscapes to a forest inventory causes many errors. In this study, a new DTM-generating technique that utilizes airborne Light Detection And Ranging (LiDAR), with iterative labeling for recovery of ground points, is proposed to solve the inaccuracy problem that occurs when DTMs are generated in forested areas. The proposed method consists of three steps: (1) generation of the initial DTM by a process that performs mean planar filtering and multireturn filtering, (2) recovery of ground points by iterative labeling through application of a ground extraction filter and limitation conditions, and (3) refinement to create the final DTM. The proposed method was tested at the experimental site with morphological and TerraScan DTM-generating techniques, followed by a visual assessment and a quantitative accuracy assessment through comparison with in-situ data. In the visual assessment, the proposed method exhibits such advantages as less noise and more precise representation of topographic features. Also, the method shows excellent performance in improving the average absolute deviation values of 110.3 cm and 50.4 cm over the morphological method and the TerraScan method, respectively, in the quantitative assessment. Thus, the proposed method is judged to have successfully solved the inaccuracy problem that often occurs with generation of DTMs for a forested area. Given that the distribution of trees is irregular and individual trees differ from one another, applying a Digital Terrain Model (DTM) for cityscapes to a forest inventory causes many errors. In this study, a new DTM-generating technique that utilizes airborne Light Detection And Ranging (LiDAR), with iterative labeling for recovery of ground points, is proposed to solve the inaccuracy problem that occurs when DTMs are generated in forested areas. The proposed method consists of three steps: (1) generation of the initial DTM by a process that performs mean planar filtering and multireturn filtering, (2) recovery of ground points by iterative labeling through application of a ground extraction filter and limitation conditions, and (3) refinement to create the final DTM. The proposed method was tested at the experimental site with morphological and TerraScan DTM-generating techniques, followed by a visual assessment and a quantitative accuracy assessment through comparison with in-situ data. In the visual assessment, the proposed method exhibits such advantages as less noise and more precise representation of topographic features. Also, the method shows excellent performance in improving the average absolute deviation values of 110.3 cm and 50.4 cm over the morphological method and the TerraScan method, respectively, in the quantitative assessment. Thus, the proposed method is judged to have successfully solved the inaccuracy problem that often occurs with generation of DTMs for a forested area. KCI Citation Count: 2
Author	Kim, Yongmin Eo, Yang Dam
Author_xml	– sequence: 1 givenname: Yongmin surname: Kim fullname: Kim, Yongmin organization: National Disaster Management Institute – sequence: 2 givenname: Yang Dam surname: Eo fullname: Eo, Yang Dam email: eoandrew@konkuk.ac.kr organization: Division of Interdisciplinary Studies, Dept. of Advanced Technology Fusion, Konkuk University
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CitedBy_id	crossref_primary_10_1016_j_optlastec_2020_106890 crossref_primary_10_1080_15481603_2018_1457131
Cites_doi	10.5589/m03-022 10.14358/PERS.71.7.847 10.3390/rs2030833 10.1109/TGRS.2003.810682 10.1016/j.isprsjprs.2008.09.001 10.14358/PERS.75.4.437 10.1016/j.isprsjprs.2006.06.002 10.3390/rs3112494 10.1109/TGRS.2008.2010490 10.1016/j.rse.2006.10.013 10.1016/j.isprsjprs.2005.10.005 10.14358/PERS.73.2.175 10.1080/2150704X.2012.684362 10.1080/01431161.2012.756597 10.3390/rs4061804 10.1016/j.catena.2006.10.010
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SubjectTerms	Civil Engineering Engineering Filtration Forests Geotechnical Engineering & Applied Earth Sciences Industrial Pollution Prevention Iterative methods Labeling Lidar Morphology Physiographic features Recovery Surveying and Geo-Spatial Information Engineering Terrain models Trees 토목공학
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Title	Ground point extraction by iterative labeling of airborne LiDAR data in a forested area
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