Presentation is loading. Please wait.

Presentation is loading. Please wait.

CHAPTER 8. Approximation Theory

Published byAngela Edwards Modified over 5 years ago

Similar presentations

Presentation on theme: "CHAPTER 8. Approximation Theory"— Presentation transcript:

1 CHAPTER 8. Approximation Theory
Dongshin Kim Computer Networks Research Lab. Dept. of Computer Science and Engineering Korea University 9 november 2005.

2 Contents Discrete Least Squares Approximation
Orthogonal Polynomials and Least Squares Approximation Chebyshev Polynomials and Economization of Power Series Rational Function Approximation Trigonometric Polynomial Approximation Fast Fourier Transforms

3 Discrete Least Squares Approximation
Finding best equation minimize a0 and a1 Another approach (absolute deviation):

4 Discrete Least Squares Approximation

5 Discrete Least Squares Approximation
Solution

6 Orthogonal Polynomials and Least Squares Approximation
Polynomial Pn(x)

7 Orthogonal Polynomials and Least Squares Approximation
Definition 8.1: linearly independent If is a polynomial of degree j, for each j=0,1,…,n, then is linearly independent on any interval [a, b]

8 Orthogonal Polynomials and Least Squares Approximation

9 Orthogonal Polynomials and Least Squares Approximation
Gram-Schmidt process

10

11 Orthogonal Polynomials and Least Squares Approximation

12 Chebyshev Polynomials and Economization of Power Series
Orthogonal on (-1,1) with respect to the weight function

13 Chebyshev Polynomials and Economization of Power Series

14 Chebyshev Polynomials and Economization of Power Series
Approximating an arbitrary nth-degree polynomial

15 Rational Function Approximation
Pade Rational Approximation

16 Rational Function Approximation

17 Result n=5, m=0 p= q= n=4, m=1 p= q= n=3, m=2 p= q=

18 Result r(x) = p(x)/q(x) n=5, m=0 n=4, m=1 n=3, m=2
p(x)= *x *x^ *x^ *x^ *x^5 q(x)= n=4, m=1 p(x)= *x *x^ *x^ *x^4 q(x)= *x n=3, m=2 p(x)= *x *x^ *x^3 q(x)= *x *x^2

19 Graph

20 Result [f(x)-r(x)] n=5, m=0 n=4, m=1 n=3, m=2
n=4, m=1 1.0e-003 * n=3, m=2 1.0e-004 *

21 Rational Function Approximation
Chebyshev Rational Approximation

22 Rational Function Approximation

23 Result n=5, m=0 p= q= n=4, m=1 p= q= n=3, m=2 p= q=

24 Graph

25 Result [f(x)-r(x)] n=5, m=0 n=4, m=1 n=3, m=2 1.0e-004 *
n=4, m=1 1.0e-005 * n=3, m=2

26 Result [f(x)-r(x)] Pade Chebyshev n=5, m=0 n=4, m=1 n=3, m=2
n=4, m=1 1.0e-003 * n=3, m=2 1.0e-004 * Chebyshev 1.0e-005 *

27 Trigonometric Polynomial Approximation
All linear combinations of the functions Fourier series

Download ppt "CHAPTER 8. Approximation Theory"

Similar presentations

Notes 6.6 Fundamental Theorem of Algebra

Notes 6.6 Fundamental Theorem of Algebra
Mathematics Topics Table of Contents. 9/14/2013 Tables of Contents 2 How to Use Topics Main Topics Numbers Real Numbers Numbers and Data Numbers & Geometry.

Mathematics Topics Table of Contents. 9/14/2013 Tables of Contents 2 How to Use Topics Main Topics Numbers Real Numbers Numbers and Data Numbers & Geometry.
Functions Basic Concepts Value (Image), Domain, Range, Graph.

Functions Basic Concepts Value (Image), Domain, Range, Graph.
Ch 5.2: Series Solutions Near an Ordinary Point, Part I

Ch 5.2: Series Solutions Near an Ordinary Point, Part I
Weak Formulation ( variational formulation)

Weak Formulation ( variational formulation)
Function approximation: Fourier, Chebyshev, Lagrange

Function approximation: Fourier, Chebyshev, Lagrange
CpE- 310B Engineering Computation and Simulation Dr. Manal Al-Bzoor

CpE- 310B Engineering Computation and Simulation Dr. Manal Al-Bzoor
Chapter 4, Integration of Functions. Open and Closed Formulas x 1 =a x 2 x 3 x 4 x 5 =b Closed formula uses end points, e.g., Open formulas - use interior.

Chapter 4, Integration of Functions. Open and Closed Formulas x 1 =a x 2 x 3 x 4 x 5 =b Closed formula uses end points, e.g., Open formulas - use interior.
Chapter 5: The Orthogonality and Least Squares

Chapter 5: The Orthogonality and Least Squares
Orthogonal Functions Numerical Methods in Geophysics Function Approximation The Problem we are trying to approximate a function f(x) by another function.

Orthogonal Functions Numerical Methods in Geophysics Function Approximation The Problem we are trying to approximate a function f(x) by another function.
Ch 5.3: Series Solutions Near an Ordinary Point, Part II A function p is analytic at x 0 if it has a Taylor series expansion that converges to p in some.

Ch 5.3: Series Solutions Near an Ordinary Point, Part II A function p is analytic at x 0 if it has a Taylor series expansion that converges to p in some.
Chapter 9 Function Approximation

Chapter 9 Function Approximation
Algebra of Limits Assume that both of the following limits exist and c and is a real number: Then:

Algebra of Limits Assume that both of the following limits exist and c and is a real number: Then:
Analyzing Polynomial & Rational Functions & Their Graphs Steps in Analysis of Graphs of Poly-Rat Functions 1)Examine graph for the domain with attention.

Analyzing Polynomial & Rational Functions & Their Graphs Steps in Analysis of Graphs of Poly-Rat Functions 1)Examine graph for the domain with attention.
difficult if we consider Didn’t you say it’s a very

difficult if we consider Didn’t you say it’s a very
GUIDED PRACTICE for Example 1 1. How many solutions does the equation

GUIDED PRACTICE for Example How many solutions does the equation
Copyright © 2011 Pearson Education, Inc. Rational Functions and Inequalities Section 3.6 Polynomial and Rational Functions.

Copyright © 2011 Pearson Education, Inc. Rational Functions and Inequalities Section 3.6 Polynomial and Rational Functions.
Piecewise Graphs A piecewise function is defined by at least two equations, each of which applies to a different part of the function’s domain. One example.

Piecewise Graphs A piecewise function is defined by at least two equations, each of which applies to a different part of the function’s domain. One example.
Polynomial Division and the Remainder Theorem Section 9.4.

Polynomial Division and the Remainder Theorem Section 9.4.
Copyright © 2009 Pearson Education, Inc. CHAPTER 4: Polynomial and Rational Functions 4.1 Polynomial Functions and Models 4.2 Graphing Polynomial Functions.

Copyright © 2009 Pearson Education, Inc. CHAPTER 4: Polynomial and Rational Functions 4.1 Polynomial Functions and Models 4.2 Graphing Polynomial Functions.

Similar presentations

Ads by Google