A Study on the GIS for The Sea Environmental Management I - Focus on the Study of A Interpolation on The Application of LDI Algorism -

GIS를 활용한 해양환경관리에 관한 연구 I - LDI 알고리즘 적용을 위한 보간법에 관한 연구 -

  • 이형민 ((주)그린텍환경컨설팅) ;
  • 박기학 (한국방송통신대학교 환경보건학과)
  • Received : 2006.02.27
  • Accepted : 2006.10.30
  • Published : 2006.12.30

Abstract

Today, satellite remote sensing (RS) and geographic information systems (GIS) plays an important role as an advanced science and technology. This study was developed a Line Density Algorithm which was clarify and describe the thermal front by using NOAA SST (sea surface temperature) and GIS spatial analysis for systemic and effective management of fish raising industry and sea environmental pollution by land reclamation program. Before this, a study about a interpolation method was carry out which was very important for estimate the hidden value between a special point. For this study Inverse Distance Weighted interpolation, Spline interpolation, Kriging interpolation methods were choose and SST data from 2001 to 2004 in spring (March, April, May) were analyzed. According to the study Kriging interpolation method was the very adaptive method from a practical point of view and excellent in description and precision then others. Finally, the result of this study will be use for develope the Line Density Index Algorism.

Keywords

References

  1. 김계현, 1998, GIS개론, 대영사
  2. 김영섭, 서애숙, 조명희, 1998, 원격탐사개론, 동화 기술
  3. 양영진, 김상현, 노홍길, 1998 , 한국 남.서해 및 동 중국해 북부해역에 출현하는 수온전선, 한국수산학회지논문집, 31(5), 695-706
  4. 윤홍주, 김상우, 황화정, 2003, 수산.해양 정보화 를 위한 RS 및 GIS 기술의 활용, 한국해양정보통신학회논문지, 7(5), 1068-1075
  5. 최종근, 2002 , 공간정보 모델링, 구미서관
  6. 최현용, 이상호, 오임상, 1998 , 황해 중부 연안 수온 전선역의 정량적 해석, 한국해양학회지, 바다3 (1), 1-8.
  7. 허영만, 최영찬, 2004, 제주도 서남방 동중국해역에서 하계 해양전선 형성과 수질특성, 한국해양환경공학회지, 7(2), 64-69
  8. Bailey, T. C., 1994, A review of statistical spatial analysis in geographical information systems. (Eds) Spatial Analysis GIS. Stewart Forheringham and Peter Rogerson, Taylor & Francis
  9. Burrough, P. A. and Mcdonnell, R. A., 1998, Principles of Geographical Information Systems, Chapter 5: Creating continuous surfaces from point data, Oxford Press
  10. Dean J. Wright., 2002, UNDERSEA WITH GIS, ESRI PRESS
  11. EPA. , Environmental Protection Agency Geographic Imformation Systems Tools., Available from http://www.epa.gov/ epahome/gis.htm
  12. Goodechild, M. F., Haining, R. P., and Wise, S. M., 1992, Integrating GIS and Spatial Data Analysis: problems and possibilities, Int. J. Geographical Information System, 6(5), 407-423 https://doi.org/10.1080/02693799208901923
  13. Kapetsky, J. M. , McGregor, L., and Nanne E H. , 1987, A geographical information system and satellite remote sensing to plan for aquaculture development, an FAO/UNDP/GRID cooperative study in Costa Rica. , FAO Fish.Tech.Pap. , 287, 51
  14. Kirby, D. S. , 1988, Remote Sensing and Fisheries Application: an overview. In: Science and Operational Applications of Remote Sensing and Integrated Information Systems for Coastal and Marine Fisheries, Coastal Region and Small Island Papers. J. Morales, ed Paris: UNESCO
  15. Ross, L. G. , Mendoza, E. A. Q. M. , and Beveridge, M. C. M. , 1993, The application of Geographical Information Systems ot site selection for coastal aquaculture: an example based on salmonid cage,culture, Aquaculture, 113, 165-178
  16. Ullman, D. S. and P. C. Cornillon. , 1999, Satellite-derived sea surface temperature fronts on the continental shelf off the northeast U.S. coast, Journal of Geophysical Research, 104, 23,459-78
  17. Waluda, C. M. and Pierce, G. J., 1998, Temporal and spatial patterns in the distribution of squid Loligo spp. in United Kingdom waters. In: Cephalopod Biodiversity, Ecology and Evolution, A. Payne, M. Lipinski, M. Clarke and M. Compagno, eds. 20, 323-336
  18. Yang S. K., 1994, Variations of the Sea Surface Temperature Distribution and the Shelf Fronts in the Cheju Strait and the Korea Strait, J. Korean Env. Sci. Soc. , 3(2), 111-128