Browse > Article
http://dx.doi.org/10.11108/kagis.2014.17.2.107

An Integrated Information Distribution System for Mountain Ridgelines Using Spatial Information  

Lee, Moung-Jin (Korea Adaptation Center for Climate Change, Korea Environment Institute)
Lee, Soo-Jae (Korea Adaptation Center for Climate Change, Korea Environment Institute)
Lee, Chang-Yeon (Korea Adaptation Center for Climate Change, Korea Environment Institute)
Publication Information
Journal of the Korean Association of Geographic Information Studies / v.17, no.2, 2014 , pp. 107-120 More about this Journal
Abstract
First purpose of this study is to build Korean mountain ridgelines based on GIS by using spatial information and analyze natural environment around mountain ridgelines built before. Second purpose of this study is to integrate Korean ridgelines and natural environment built before and then provide the integrated information related to ridgelines for public. To do so, fist of all, Korean mountain ridgelines including Deagan, Jeongmeak, Gimeak, Jimeak, are built as spatial information. Second, Encoding of mountain ridgelines is conducted to analyze main and divaricate ridgelines systematically as grades of ridgelines. Third, based on spatial information, present condition using natural environment including geographical information, ecological zoning map, environmental conservation value assessment map, is analyzed. Finally, as a method integrating and using the aforementioned three information, the system providing integrated information based on GIS is proposed, To build the GIS data of Gimeak and Jimeak, they should be analyzed in more detail than Beakdu Deagan and Jeongmeak, so existing methodology to build mountain ridgelines based on GIS is improved. According to the distance of each mountain ridgeline, they are separated into five grades, and encoding of each mountain ridgeline based on Beakdu Deagan is applied to all mountain ridgelines to figure out the present condition of ridgelines themselves. In addition, according to the distance of each mountain ridgeline, it is separated into three areas: core, buffer, median zone. Based on three zones, the way to make use of the information efficiently related to mountain ridgelines is proposed. This study systematizes Korean mountain ridgelines which did not have systematic structures and then analyzes systematic mountain ridgelines. Based on this analysis, this study finds the way to makes use of information related to mountain ridgelines effectively.
Keywords
Spatial Information; Mountain Ridgelines; Integrated Information Distribution; Encoding;
Citations & Related Records
Times Cited By KSCI : 5  (Citation Analysis)
연도 인용수 순위
1 Park, S.J. and I. Son. 2008. Discussions on the distribution and genesis of mountain ranges in the Korean peninsular(III) : proposing a new mountain range map. The Korean Geographical Society 43(3):276-295 (박수진, 손일. 2008. 한국 산맥론(III): 새로운 산맥도의 제안. 대한지리학회지 43(3):276-295).   과학기술학회마을
2 Olshansky, R. 1998. Regulation of hillside development in the United States. Environmental Management 22(3):388-392.
3 Olshansky, R. 2005. Planning for Hillside Development: In Environment and Development, American Planning Association, September/October 1995.
4 Park, S.J. and I. Son. 2005. Discussions on the distribution and genesis of mountain ranges in the Korean peninsular(II) : the proposal of 'Sanjulgi-Jido(Mountain Ridge Map)'. The Korean Geographical Society 40(3):253-273 (박수진, 손일. 2005. 한국 산맥론(II): 한반도'산줄기 지도'의 제안. 대한지리학회지 40(3):253-273).   과학기술학회마을
5 Korea Forest Service. 1997b. A study on the Baekdudaegan survey and reasonable conservation. (산림청. 1997b. 백두대간의 실태조사 및 합리적인 보전방안 연구).
6 Korea Environment Institute. 2012. Environmental assessment guidelines for the mountain ridges of gimaek of Baekdudaegan in Korea. pp.45-58 (한국환경정책평가연구원. 2012. 백두대간 기맥에 대한 환경성평가 방안 연구. 45-58쪽).
7 Korea Forest Service. 1996. Baekdu daegan Literature. Korea Forest Service (산림청. 1996. 백두대간 관련 문헌집).
8 Korea Forest Service. 1997a. A study on the concept formulation and survey of Baekdudaegan. (산림청. 1997a. 백두대간의 개념정립과 실태조사 연구).
9 Lee, M.J. and J.E. Kang. 2012. Predictive flooded area susceptibility and verification using GIS and frequency ratio. Journal of the Korean Association of Geographic Information Studies. 15(2):86-102 (이명진, 강정은. 2012. 빈도비 모델과 GIS을 이용한 침수 취약 지역 예측 기법 개발 및 검증. 한국지리정보학회지 15(2):86-102).   과학기술학회마을   DOI   ScienceOn
10 Lee, M.J. and S.J. Lee. 2013. Study of the Baekdudaegan & Ridgelines extraction and environmental impact assessment utilizing GIS. Journal of the Korean Association of Geographic Information Studies 16(3):136-146 (이명진, 이수재. 2013. GIS를 활용한 백두대간.정맥 추출 및 환경성평가 방안 연구. 한국지리정보학회지 16(3):136-146).   과학기술학회마을   DOI   ScienceOn
11 Ministry of Environment. 2001. A study on the efficient management of Baekdu daegan I. Korea Research Institute for Hunam Settlements. 45pp (환경부. 2001. 백두대간의 효율적 관리방안 연구 I. 45쪽).
12 Ministry of Environment. 2008. A study of method and guidelines for pre-environmental appraisal to Baekdu daegan and Jeongmeak. pp.9-25 (환경부. 2008. 백두대간.정맥의 사전환경성평가방법 및 가이드라인 마련 연구. 9-25쪽).
13 Ministry of Environment. 2002. A study on the efficient management of Baekdu daegan II. Korea Research Institute for Hunam Settlements. 89pp (환경부. 2002. 백두대간의 효율적 관리방안 연구 II. 89쪽).
14 Ministry of Environment. 2003. A study on the efficient management of Baekdu daegan III. Korea Research Institute for Hunam Settlements. 107pp (환경부. 2003. 백두대간의 효율적 관리방안 연구 III. 107쪽).
15 Ministry of Environment. 2006. Manual of prior environmental review system, Korea Environment Intitute pp.84-89 (환경부. 2006. 사전환경성검토업무 매뉴얼, 한국환경정책.평가연구원. 84-89쪽).
16 Andrew S.D. and S.L. Shaw. 2007. A GIS-based spatial decision support system for tourists of Great Smoky Mountains national park. Journal of Retailing and Consumer Services 14(2007):269-278.   DOI   ScienceOn
17 Houck, R. 2005. A study of ridgeline and steep slope regulations in mountain communities throughout the United States. Land-of-Sky Regional Council, pp.4.
18 Kang, J.E. and M.J. Lee. 2012. Assessment of flood vulnerability to climate change using fuzzy model and GIS in Seoul. Journal of the Korean Association of Geographic Information Studies 15(3):119-136 (강정은, 이명진. 2012. 퍼지모형과 GIS를 활용한 기후변화 홍수취약성 평가 -서울시 사례를 중심으로-. 한국지리정보학회지 15(3):119-136).   과학기술학회마을   DOI   ScienceOn