computer graphics

Published on: **Mar 4, 2016**

Published in:
Design

Source: www.slideshare.net

- 1. POLYGON MESH Advance Computer Graphics Farah Al-Tufaili Kufa university – College of computer science and mathematics
- 2. Definition • A polygon mesh is a surface that is constructed out of a set of polygons that are joined together by common edges • A polygon mesh is a collection of vertices, edges and faces that defines the shape of a polyhedral object in 3D computer graphics and solid modeling. 14 March 2015 2Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 3. Elements Of Mesh Modeling 14 March 2015 3Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 4. Vertex and FaceTables Each face lists vertex references • Shared vertices • Still no topology information 14 March 2015 4Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 5. Construction Of Polygonal Meshes • Although it is possible to construct a mesh by manually specifying vertices and faces, it is much more common to build meshes using a variety of tools. A wide variety of 3D graphics software packages are available for use in constructing polygon meshes. • One of the more popular methods of constructing meshes is box modeling, which uses two simple tools: Subdivide extrude 14 March 2015 5Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 6. One of the more popular methods of constructing meshes is box modeling, which uses two simple tools • The subdivide tool splits faces and edges into smaller pieces by adding new vertices. For example, a square would be subdivided by adding one vertex in the center and one on each edge, creating four smaller squares. • The extrude tool is applied to a face or a group of faces. It creates a new face of the same size and shape which is connected to each of the existing edges by a face.Thus, performing the extrude operation on a square face would create a cube connected to the surface at the location of the face. 14 March 2015 6Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 7. Construction Of Polygonal Meshes • A second common modeling method is sometimes referred to as inflation modeling or extrusion modeling. • In this method, the user creates a 2D shape which traces the outline of an object from a photograph or a drawing. • The user then uses a second image of the subject from a different angle and extrudes the 2D shape into 3D, again following the shape’s outline 14 March 2015 7Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 8. Extrusion modeling • This method is especially common for creating faces and heads. In general, the artist will model half of the head and then duplicate the vertices, invert their location relative to some plane, and connect the two pieces together.This ensures that the model will be symmetrical. 14 March 2015 8Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 9. Construction Of Polygonal Meshes • Another common method of creating a polygonal mesh is by connecting together various primitives, which are predefined polygonal meshes created by the modeling environment. Common primitives include: • Cubes • Pyramids • Cylinders • 2D primitives, such as squares, triangles, and disks • Specialized or esoteric primitives, such as the UtahTeapot or Suzanne, Blender's monkey mascot. • Spheres 14 March 2015 9Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 10. polygon meshes representation Polygon meshes may be represented in a variety of ways, using different methods to store the vertex, edge and face data. These include: 1. Vertex-vertex meshes 2.Face-vertex meshes 3. Winged-edge meshes 4.Render dynamic meshes 14 March 2015 10Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 11. 1- Vertex-vertex meshes • Represent an object as a set of vertices connected to other vertices. This is the simplest representation, but not widely used since the face and edge information is implicit. Thus, it is necessary to traverse the data in order to generate a list of faces for rendering. In addition, operations on edges and faces are not easily accomplished. 14 March 2015 11Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 12. 2-Face-vertex meshes • Represent an object as a set of faces and a set of vertices.This is the most widely used mesh representation, being the input typically accepted by modern graphics hardware. 14 March 2015 12Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 13. • Introduced by Baumgart 1975, winged-edge meshes explicitly represent the vertices, faces, and edges of a mesh.This representation is widely used in modeling programs to provide the greatest flexibility in dynamically changing the mesh geometry, because split and merge operations can be done quickly. 14 March 2015 13 3-Winged-edge meshes Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 14. 4- Render dynamic meshes • Winged-edge meshes are not the only representation which allows for dynamic changes to geometry. A new representation which combines winged-edge meshes and face-vertex meshes is the render dynamic mesh, which explicitly stores both, the vertices of a face and faces of a vertex (like FaceVertics meshes), and the faces and vertices of an edge (like winged- edge). 14 March 2015 14Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 15. Shading Models • Flat Shading (less computation needed) • Gouraud shading • Phong Shading (heavy computation needed) 14 March 2015 15 Flat Gouraud Phong Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 16. How to compute the normal vectors? • The mesh is a set of polygons • We can compute the normal vectors for each polygon (triangle) • We can color the whole polygon using the same normal • vector (flat shading) 14 March 2015 16Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 17. Flat Shading • Compute the color at the middle of the polygon • All points in the same polygon are colored by the same color • One illumination calculation per polygon Assign all pixels inside each polygon the same color 14 March 2015 17Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 18. Flat Shading • A fast and simple method. • Gives reasonable result only if all of the following assumptions are valid:The object is really a polyhedron. • Light source is far away from the surface so that N•L is constant over each polygon. • Viewing position is far away from the surface so thatV•R is constant over each polygon. 14 March 2015 18Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 19. Flat Shading • Objects look like they are composed of polygons • OK for polyhedral objects • Not so good for ones with smooth surfaces 14 March 2015 19Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 20. Gouraud Shading (Smooth Shading) • Compute the color at each vertex first • Compute the color inside the polygon by interpolating the colors of the vertices composing the polygon 14 March 2015 20Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 21. • Produces smoothly shaded polygonal mesh Piecewise linear approximation • Need fine mesh to capture subtle lighting effects 14 March 2015 21 Gouraud Shading (Smooth Shading) Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 22. Phong Shading • Interpolating the normal vectors at the vertices • Do the computation of illumination at each point in the polygon • Apply the illumination model along each scan line to calculate pixel intensities for each surface point 14 March 2015 22Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 23. Phong Shading • One lighting calculation per pixel. • Approximate surface normals for points inside polygons by bilinear interpolation of normals from vertices 14 March 2015 23Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 24. What’s Bad About Polygons? •What are some disadvantages of polygonal representations? 14 March 2015 24Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 25. Polygons Aren’t Great • They are always an approximation to curved surfaces • But can be as good as you want, if you are willing to pay in size • Normal vectors are approximate • They throw away information • Most real-world surfaces are curved, particularly natural surfaces • They can be very unstructured • It is difficult to perform many geometric operations • Results can be unduly complex, for instance 14 March 2015 25Computer graphics: Polygon mesh_______________ Farah Al-Tufaili
- 26. Thank you for listening 14 March 2015 26Computer graphics: Polygon mesh_______________ Farah Al-Tufaili