Gabor Noise by Example

Bruno Galerne; Ares Lagae; Sylvain Lefebvre; George Drettakis

hal-00695670, version 1

Gabor Noise by Example

Bruno Galerne (, ) ¹, Ares Lagae () ², Sylvain Lefebvre () ³, George Drettakis (, ) ⁴

ACM Transactions on Graphics (TOG) - SIGGRAPH 2012 Conference Proceedings 31, 4 (2012) Article No. 73

Abstract: Procedural noise is a fundamental tool in Computer Graphics. However, designing noise patterns is hard. In this paper, we present Gabor noise by example, a method to estimate the parameters of bandwidth-quantized Gabor noise, a procedural noise function that can generate noise with an arbitrary power spectrum, from exemplar Gaussian textures, a class of textures that is completely characterized by their power spectrum. More specifically, we introduce (i) bandwidth-quantized Gabor noise, a generalization of Gabor noise to arbitrary power spectra that enables robust parameter estimation and efficient procedural evaluation; (ii) a robust parameter estimation technique for quantized-bandwidth Gabor noise, that automatically decomposes the noisy power spectrum estimate of an exemplar into a sparse sum of Gaussians using non-negative basis pursuit denoising; and (iii) an efficient procedural evaluation scheme for bandwidth-quantized Gabor noise, that uses multi-grid evaluation and importance sampling of the kernel parameters. Gabor noise by example preserves the traditional advantages of procedural noise, including a compact representation and a fast on-the-fly evaluation, and is mathematically well-founded. See project page at : http://graphics.cs.kuleuven.be/publications/GLLD12GNBE/

1: Mathématiques appliquées Paris 5 (MAP5)
CNRS : UMR8145 – Université Paris V - Paris Descartes
2: Department of Computer Science [Leuven] (CS)
Katholieke Universiteit Leuven
3: ALICE (INRIA Nancy - Grand Est / LORIA)
INRIA – CNRS : UMR7503 – Université de Lorraine
4: REVES (INRIA Sophia Antipolis)
INRIA

hal-00695670, version 1
http://hal.archives-ouvertes.fr/hal-00695670
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From: Bruno Galerne <>
Submitted on: Wednesday, 9 May 2012 15:48:29
Updated on: Tuesday, 27 November 2012 15:31:45

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DOI: 10.1145/2185520.2185569

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%% hal-00695670, version 1
%% http://hal.archives-ouvertes.fr/hal-00695670
@article{galerne:hal-00695670,
    hal_id = {hal-00695670},
    url = {http://hal.archives-ouvertes.fr/hal-00695670},
    title = {{Gabor Noise by Example}},
    author = {Galerne, Bruno and Lagae, Ares and Lefebvre, Sylvain and Drettakis, George},
    abstract = {{Procedural noise is a fundamental tool in Computer Graphics. However, designing noise patterns is hard. In this paper, we present Gabor noise by example, a method to estimate the parameters of bandwidth-quantized Gabor noise, a procedural noise function that can generate noise with an arbitrary power spectrum, from exemplar Gaussian textures, a class of textures that is completely characterized by their power spectrum. More specifically, we introduce (i) bandwidth-quantized Gabor noise, a generalization of Gabor noise to arbitrary power spectra that enables robust parameter estimation and efficient procedural evaluation; (ii) a robust parameter estimation technique for quantized-bandwidth Gabor noise, that automatically decomposes the noisy power spectrum estimate of an exemplar into a sparse sum of Gaussians using non-negative basis pursuit denoising; and (iii) an efficient procedural evaluation scheme for bandwidth-quantized Gabor noise, that uses multi-grid evaluation and importance sampling of the kernel parameters. Gabor noise by example preserves the traditional advantages of procedural noise, including a compact representation and a fast on-the-fly evaluation, and is mathematically well-founded. See project page at : http://graphics.cs.kuleuven.be/publications/GLLD12GNBE/}},
    keywords = {procedural noise ; Gaussian texture ; Gaussian random field ; power spectrum estimation ; non-negative basis pursuit denoising ; decorrelated color space},
    language = {English},
    affiliation = {Math{\'e}matiques appliqu{\'e}es Paris 5 - MAP5 , Department of Computer Science [Leuven] - CS , ALICE - INRIA Nancy - Grand Est / LORIA , REVES - INRIA Sophia Antipolis},
    pages = {Article No. 73},
    journal = {ACM Transactions on Graphics (TOG) - SIGGRAPH 2012 Conference Proceedings},
    volume = {31},
    number = {4 },
    note = {MAP5 2012-14 MAP5 2012-14 KU Leuven project CREA/08/017 },
    audience = {international },
    doi = {10.1145/2185520.2185569 },
    year = {2012},
    month = Jul,
    pdf = {http://hal.archives-ouvertes.fr/hal-00695670/PDF/glld\_gabor\_noise\_by\_example\_preprint.pdf},
}

%F hal-00695670, version 1
%0 Journal Article
%U http://hal.archives-ouvertes.fr/hal-00695670
%2 INFO:INFO_GR
%T Gabor Noise by Example
%A Galerne, Bruno
%A Lagae, Ares
%A Lefebvre, Sylvain
%A Drettakis, George
%+ Mathématiques appliquées Paris 5 - MAP5 , Department of Computer Science [Leuven] - CS , ALICE - INRIA Nancy - Grand Est / LORIA , REVES - INRIA Sophia Antipolis
%X Procedural noise is a fundamental tool in Computer Graphics. However, designing noise patterns is hard. In this paper, we present Gabor noise by example, a method to estimate the parameters of bandwidth-quantized Gabor noise, a procedural noise function that can generate noise with an arbitrary power spectrum, from exemplar Gaussian textures, a class of textures that is completely characterized by their power spectrum. More specifically, we introduce (i) bandwidth-quantized Gabor noise, a generalization of Gabor noise to arbitrary power spectra that enables robust parameter estimation and efficient procedural evaluation; (ii) a robust parameter estimation technique for quantized-bandwidth Gabor noise, that automatically decomposes the noisy power spectrum estimate of an exemplar into a sparse sum of Gaussians using non-negative basis pursuit denoising; and (iii) an efficient procedural evaluation scheme for bandwidth-quantized Gabor noise, that uses multi-grid evaluation and importance sampling of the kernel parameters. Gabor noise by example preserves the traditional advantages of procedural noise, including a compact representation and a fast on-the-fly evaluation, and is mathematically well-founded. See project page at : http://graphics.cs.kuleuven.be/publications/GLLD12GNBE/
%G English
%2 2012-05-03
%R 10.1145/2185520.2185569
%J ACM Transactions on Graphics (TOG) - SIGGRAPH 2012 Conference Proceedings
%2 international
%8 2012-07-00
%2 2012-07
%V 31
%N 4
%P Article No. 73
%K procedural noise ; Gaussian texture ; Gaussian random ﬁeld ; power spectrum estimation ; non-negative basis pursuit denoising ; decorrelated color space
%Z MAP5 2012-14
%Z KU Leuven project CREA/08/017
%2 13297
%2 88294

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