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Development of Shoreline Extraction Algorithm using Airborne LiDAR Data  

Wie Gwang-Jae (성균관대학교 건설환경시스템공학과)
Jeong Jae-Wook (한진정보통신 GIS사업부문)
Publication Information
Journal of the Korean Society of Surveying, Geodesy, Photogrammetry and Cartography / v.24, no.2, 2006 , pp. 209-215 More about this Journal
Abstract
Shoreline changes its shapes and attribution dynamically by natural, unnatural acts and is the most information for country. These shorelines can apply to framework data of MGIS (Marine Geographic Information System), and they are getting important to implement a phase of monitoring around coastal areas. This study proposed an algorithm automatically extracting shorelines to use a new developed LiDAR (Light Detection And Ranging) data which is applying in ocean and coastal areas. Then, in result, it was compared to shorelines which is derived from ground survey. In result, it shows stable shorelines in various coast areas such as nature, artificial coast. Additionally, and a possibility of shoreline extraction through LiDAR data.
Keywords
LiDAR; Shoreline; Airborne Laser Surveying; Shoreline extraction algorithm;
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1 Stephen A. Yong Wang (2003), Utilizing DEMs derived from LIDAR data to analyze morphologic change in the North Carolina coastline. Remote Sensing of Environment 85, 39-47   DOI   ScienceOn
2 Webster T. Forbes D. Dickie S. Shreenan R. (2004), Using topographic lidar to map flood risk from storm-surge events for Charlottetown, Prince Edward Island, Canada, Canadian Journal for Remote Sensing 30-1, 64-76   DOI
3 Woosug Cho, Yoon-Seok Jwa, Hwi-Jeong Chang and Sung-Hun Lee (2004), Pseudo-Grid Based Building Extraction Using Airborne LIDAR Data, 20th ISPRS Congress, Istanbul, unalienated CD-ROM
4 Gomes-Pereira, L. and Wicherson, R. (1999), Suitability of laser data for deriving geographical information - a case study in the context of management of fluvial zones, ISPRS Journal of Photogrammetry and Remote Sensing 54, 105-114   DOI   ScienceOn
5 Roberto Gutierrez, James C., Rebecca C. Tiffany L., John R. (2001), Precise Airborne LIDAR Surveying For Coastal Research and Geohazards Applications. International Archives of Photogrammetry and Remote Sensing, Vol. XXXIV-3/W4 Annapolis, MD
6 위광재, 염재홍, 이강원, 김승용 (2002), LiDAR자료를 이용한 연안 해안지역 관리 및 활용에 관한 연구, 대한원격탐사학회 공동 춘계 학술대회 논문집, pp. 66-73
7 Brzank, A., Lohmann, P. and Heipke, C. (2005), Automated extraction of pair wise structure lines using airborne Iaserscanner data in coastal areas, ISPRS WG III/3, III/4, V/3 Workshop 'Laser scanning 2005', Enschede, the Netherlands, September 12 -14
8 최윤수, 황세열, 서병덕, 위광재 (2004), LiDAR&SHOALS 기술 을 이용한 해안선 측량 및 모니터링에 관한 연구, 한국 해안 . 해안공학회, 한국의 해안선 정립을 위한 Workshop 논문집, pp. 137-144
9 Jason W. and Jeffrey D. (2002), Spatial characterization, resolution, and volumetric change of coastal dunes using airborne LIDAR: Cape Hatteras, North Carolina. Geomorphology 48, 269-287   DOI   ScienceOn
10 Brugelmann, R. and Bollweg, A.E. (2004), Laser alimentary for river management, In International Archives of Photogrammetry and Remote Sensing, Vol. XXXV, B2, Istanbul, Turkey, pp. 234-239