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Introduction to Modeling. What is CG Modeling?. Combination of Sculpting, Architecture, Drafting, and Painting. The core component of computer animation. What are the challenges: – Time!. Time to create the models. Time to render the models. Time to animate the models.
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What is CG Modeling? • Combination of Sculpting, Architecture, Drafting, and Painting. • The core component of computer animation.
What are the challenges: – Time! • Time to create the models. • Time to render the models. • Time to animate the models. What are our options? • To improve rendering time reduce polygon count. • To improve realism increase polygon count. • To create models faster reduce polygon count. • To reduce animation time reduce number of manipulators. • To improve animation realism increase the number of manipulators.
How to create models? • Hand code the model – no one does this anymore. • Use a modeling tool – eg Maya. • Scan physical models using a 3D scanner.
Generate by Hand Pros/Cons Very very exact. You know exactly what you get. Very very time consuming. Not possible to build large or Complex models.
Use a Modeling Tool - Maya Pros/Cons Quick to build models. Can build very complex models Lots of controls and manipulators Easy to build overly complex models Tools can be difficult t learn. Can be difficult to control output. Can be hard to port to other tools
Use a 3D Scanner Pros/Cons Very quick to build models. Can be done automatically. Can hire students to do it. Few controls and manipulators. Requires extensive re-editing. Generates models with too many polygons. Limits animators flexibility.
What are the Parts of Modeling? • Scene – when modeling work on a scene at a time. • Spaces – Where your models sit in space. • Objects – the primitives used to build your models. • Structures – combine objects to make structures. • Operators – Tools to build structures from objects.
Space Structure Object
Coordinate Spaces X Y Z Cartesian Coordinates Rectangular Coordinates Global Coordinates Local Coordinates Spaces
Projections • How we go from 3D to 2D • Two types: Perspective and Orthographic
How can you model objects? • Polygonal Models. • NURBS • Subdivision Surfaces • Parametric Models • Implicit Surfaces
Polygonal Models Pros/Cons Simple to understand. Simple to render. Simple to combine to make shapes. Hardware supported rendering Need lots of polygons for complex shapes. Difficult to animate lots of polygons. Lots of controls needed. Advanced modeling operations are difficult. Continuity problems. • Polygonal Models consist of: • Vertices • Edges • Faces Polygon Vertex Face Edge
NURB Models Non-Uniform Rational B-Splines • NURBs are made of: • Patches • Curves • Control Points Pros/Cons Need fewer patches for complex objects. Easier to animate patches. Fewer controls needed. No Continuity problems. Advanced modeling operations are easier. Hard to create corners! Difficult to understand. Difficult to render. Simple to combine to make shapes. Render by converting to polygons
Subdivision Surfaces • Provides `Localized Refinement • Allows you to mix sharp and smooth corners. • Continuity controlled locally. • Increased rendering time • Requires clear understanding to generate good models. • Can be difficult to animate.
Parametric Models and Implicit Surfaces Mathematical representations of complex surfaces. X^2*Y^3-Z^4- 12 X=r(t), Y=r(t)+2*r^2(t), Z=t Not in production use at this time. Have very beneficial mathematical properties. Are extremely difficult to render, modify, and animate.
What Kinds of Modeling Operations Exist? • Insert and Delete point, edge, face. • Add Polygon/NURB • Boolean Operations: Union, Intersect, Difference. • Advanced Operations: • Extrude along path. • Loft surface • Revolve • Bend • Split • Very Advanced Operations • Smooth Model
What kinds of modeling jobs are there? • General Modelers • Photo-realistic modelers • High poly-count modelers • Low poly-count modelers • Character Animators • Prop Modelers
What types of animation controls are available? • Simple – directly keying specific components. • Moderate – An I/K skeleton, Solvers. • Complex – Programmed Mel Scripts, advanced solvers. Linked Solvers.
How do you control color and appearance. • Assign Materials. • Assign Shaders. • Assign Textures. • Advanced Shaders – eg Renderman.
What about rendering? • Everything is translated to Triangles.
How do you Triangulate? • Polygons • NURBS • Subdivision Surfaces • Parametric Surfaces • Implicit Surfaces
How is everything rendered. • First everything is converted to polygons • Second everything is converted to triangles. • Then everything is rendered thru the graphics pipeline discussed in the prior lecture.
Good References • 3D Computer Graphics • Alan Watt • The Art of 3-D Computer Animation and Imaging • Isaac Victor Kerlow • 3D Animation: From Models to Movies • Adam Watkins