ArcView 3-D Analyst

1. ArcView 3-D Analyst

2. Triangulated Irregular Network (TIN)

3. A Mesh of Triangles Triangle is the only polygon that is always planar in 3-D Lines Surfaces Points

4. Tin Triangles in 3-D (x3, y3, z3) (x1, y1, z1) (x2, y2, z2) z y Projection in (x,y) plane x

5. Delauney Triangulation Maximize the minimum interior angle of triangles No point lies within the circumcircle of a triangle Yes No

6. Draw the perpendicular bisectors of each edge of the triangle Circumcircle is centered on their intersection point Radial lines from center have equal length Circumcircle of Triangle

7. Soft Breaklines Hard Breaklines Mass Points Inputs for Creating a TIN • Hard breaklines define locations of abrupt surface change (e.g. streams, ridges, road kerbs, building footprints, dams) • Soft breaklines are used to ensure that known z values along a linear feature are maintained in the tin.

8. TIN for Waller Creek

9. TIN with Surface Features Classroom UT Football Stadium Waller Creek

10. A Portion of the TIN

11. Input Data for this Portion Mass Points Soft Breaklines Hard Breaklines

12. TIN Vertices and Triangles

13. TIN Surface Model Waller Creek Street and Bridge

14. 3-D Scene

15. 3-D Scene with Buildings

16. Watershed Modeling With TINs Slides from Dr James Nelson Brigham Young University Sponsored by National Highway Institute US Department of Transportation

17. Work Flow Tin-based Watershed Delineation

18. 13.0 10.0 9.0 5.0 2.0 Flow On a Triangle

19. Flow On a TIN

20. Defining Basins

21. Computing Basin Data • Area • Slope • Flow Distances • Slopes • Aspect • Stream Lengths • Slopes • Others

22. Add Outlets • Refine Boundaries • Merge Basins • Split Basins • Delete Outlets • Recompute Data Modifying Basins

23. Ten Steps Using TINs 1. Background Elevation 2. Smooth Elevations 3. Conceptual Model 4. Redistribute Vertices 5. Create TIN 6. Edit TIN 7. Add Interior Outlets 8. Define Basins 9. Refine TIN 10. Compute Basin Data

24. 1: Background Elevation • TINs • Digitized • XYZ Data • DEMs

25. 2: Smooth Elevations • TINs or DEMs

26. TOPAZ • Contours • Image • Importing • GIS • DXF 3: Conceptual Model

27. 4: Redistribute Vertices • From Coarse to Fine • From Fine to Coarse • Unequal Distribution

28. Conceptual Model • Triangulate • Enforce Breaklines • Interpolate Z 5: Create TIN

29. 6: Edit TIN • Flat Triangles • Pits

30. 7: Add Sub-basin Outlets

31. 8: Define Basins

32. Split Flow • Refine • NULL Triangles 9: Refine TIN

33. 10: Compute Basin Data • Basins • Area • Slope • Avg. Elevation • Length • Streams • Length • Slope

34. Ten Steps Using TINs 1. Background Elevation 2. Smooth Elevations 3. Conceptual Model 4. Redistribute Vertices 5. Create TIN 6. Edit TIN 7. Add Interior Outlets 8. Define Basins 9. Refine TIN 10. Compute Basin Data

35. TIN Strengths • Automated Basin Delineation with Parameter Calculations • “Adaptive” Resolution • you can use most any elevation data source • Urban Areas • where small variations in flow can be significant • It Was in WMS First • reservoir definition, storage capacity curves, time area curves, flood-plain delineation

36. TIN Weaknesses • Lack of Available Data • With conceptual model approach this is not such a big factor anymore • Extra Steps • Local editing