html5-img
1 / 16

Orthogonal Functions and Fourier Series

Orthogonal Functions and Fourier Series. Vector Spaces. Set of vectors Operations on vectors and scalars Vector addition: v 1 + v 2 = v 3 Scalar multiplication: s v 1 = v 2 Linear combinations: Closed under these operations Linear independence Basis Dimension. Vector Spaces.

crete
Télécharger la présentation

Orthogonal Functions and Fourier Series

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Orthogonal Functions and Fourier Series University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  2. Vector Spaces • Set of vectors • Operations on vectors and scalars • Vector addition: v1 + v2 = v3 • Scalar multiplication: sv1 = v2 • Linear combinations: • Closed under these operations • Linear independence • Basis • Dimension University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  3. Vector Spaces • Pick a basis, order the vectors in it, then all vectors in the space can be represented as sequences of coordinates, i.e. coefficients of the basis vectors, in order. • Example: • Cartesian 3-space • Basis: [i j k] • Linear combination: xi + yj + zk • Coordinate representation: [x y z] University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  4. Functions as vectors • Need a set of functions closed under linear combination, where • Function addition is defined • Scalar multiplication is defined • Example: • Quadratic polynomials • Monomial (power) basis: [x2x1] • Linear combination: ax2 + bx + c • Coordinate representation: [a b c] University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  5. Metric spaces • Define a (distance)metric s.t. • d is nonnegative • d is symmetric • Indiscernibles are identical • The triangle inequality holds University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  6. Normed spaces • Define the length or norm of a vector • Nonnegative • Positive definite • Symmetric • The triangle inequality holds • Banach spaces – normed spaces that are complete (no holes or missing points) • Real numbers form a Banach space, but not rational numbers • Euclidean n-space is Banach University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  7. Norms and metrics • Examples of norms: • p norm: • p=1 manhattan norm • p=2 euclidean norm • Metric from norm • Norm from metric if • d is homogeneous • d is translation invariant then University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  8. Inner product spaces • Define [inner, scalar, dot] product s.t. • For complex spaces: • Induces a norm: University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  9. Some inner products • Multiplication in R • Dot product in Euclidean n-space • For real functions over domain [a,b] • For complex functions over domain [a,b] • Can add nonnegative weight function University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  10. Hilbert Space • An inner product space that is complete wrt the induced norm is called a Hilbert space • Infinite dimensional Euclidean space • Inner product defines distances and angles • Subset of Banach spaces University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  11. Orthogonality • Two vectors v1 and v2 are orthogonal if • v1 and v2 are orthonormal if they are orthogonal and • Orthonormal set of vectors (Kronecker delta) University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  12. Examples • Linear polynomials over [-1,1] (orthogonal) • B0(x) = 1, B1(x) = x • Is x2 orthogonal to these? • Is orthogonal to them? (Legendre) University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  13. Fourier series • Cosine series University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  14. Fourier series • Sine series University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  15. Fourier series • Complete series • Basis functions are orthogonal but not orthonormal • Can obtain an and bn by projection University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

  16. Fourier series • Similarly for bk University of Texas at Austin CS395T - Advanced Image Synthesis Spring 2006 Don Fussell

More Related