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Computer Animation Algorithms and Techniques

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Presentation on theme: "Computer Animation Algorithms and Techniques"— Presentation transcript:

1 Computer Animation Algorithms and Techniques
Integration

2 Integration Given acceleration, compute velocity & position by integrating over time

3 Projectile given initial velocity under gravity

4 Euler integration For arbitrary function, f(t) Truncated Taylor series

5 Integration – derivative field
For arbitrary function, f(t) Truncated Taylor series

6 Step size

7 Numeric Integration Methods
(explicit or forward) Euler Integration 2nd order Runga Kutta Integration (Midpoint Method) 4th order Runga Kutta Integration Implicit (backward) Euler Integration Semi-implicit Euler Integration

8 Runge Kutta Integration: 2nd order
Aka Midpoint Method For unknown function, f(t); known f ’(t) Truncated Taylor series

9 Step size Euler Integration Midpoint Method

10 Runge Kutta Integration: 4th order
For unknown function, f(t); known f ’(t) Truncated Taylor series

11 Implicit Euler Integration
For arbitrary function, f(t), find next point whose derivative updates last value to this value: required numeric method (e.g. Newton-Raphson) Search for point such that negative of tangent points back at original point Truncated Taylor series

12 Differential equation, initial boundary problem
(implicit/backward) Euler method (explicit/forward) Euler method Truncated Taylor series e.g. linearize f’ and use Newton-Raphson

13 Semi-Implicit Euler Integration
Truncated Taylor series

14 Methods specific to update position from acceleration
Heun Method Verlet Method Leapfrog Method Truncated Taylor series

15 Heun Method Truncated Taylor series

16 Verlet Method Truncated Taylor series

17 Leapfrog Method Truncated Taylor series

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