등고선 기반의 전자 지형 정보 및 제한 들로네 삼각분할법을 이용한 3차원 환경소음 영향예측용 지형모델 생성 기법
Formation Technique of a 3D Ground Topographic Numerical Model for Environmental Impact Prediction using Digital GIS Databases, Contour Lines and Constrained Delaunay Triangulation
최태묵(크리에이텍); 김진형(크리에이텍)
34권 4호, 417~423쪽
초록
This paper presents a technique forming a three-dimensional (3D) topographic model to predict environmental impact using GIS databases, employing the constrained Delaunay triangulation method and contour lines. Benchmark numerical tests demonstrate that compared to using Delaunay triangulation alone, the proposed technique reduces mesh-generation time and effectively manages the number of GIS inputs needed for accurate mesh resolution. Thus, this method proves beneficial for efficiently generating 3D topographic numerical models, particularly in large domains, enhancing environmental impact prediction capabilities.
Abstract
This paper presents a technique forming a three-dimensional (3D) topographic model to predict environmental impact using GIS databases, employing the constrained Delaunay triangulation method and contour lines. Benchmark numerical tests demonstrate that compared to using Delaunay triangulation alone, the proposed technique reduces mesh-generation time and effectively manages the number of GIS inputs needed for accurate mesh resolution. Thus, this method proves beneficial for efficiently generating 3D topographic numerical models, particularly in large domains, enhancing environmental impact prediction capabilities.
- 발행기관:
- 한국소음진동공학회
- 분류:
- 기계공학