Differential equations for phase-based stereo-vision

Author

Crespi, Bruno

Author_Institution

IRST, Povo, Italy

fYear

1999

fDate

1999

Firstpage

514

Lastpage

519

Abstract

In this work, the phase-difference-based technique for disparity estimation in stereo vision is formulated in terms of variational calculus. Non-local operations such as image convolutions with Gabor-like filters are replaced by solutions of systems of coupled differential equations (DE), whose degree depends on the smoothness of the convolution kernel. The variational formulation of the whole disparity-estimation problem allows the introduction of new computational features: (1) a regularization scheme that reduces irregularities in the computed disparity field; and (2) a coupling between the filter parameters and the system output in order to optimize DE system performance. In the perspective of analog computation on discrete lattice networks, this work indicates the possibility of performing a complex and global filtering operation by means of local operators

Keywords

convolution; differential equations; optimisation; parameter estimation; smoothing methods; stereo image processing; variational techniques; DE; analog computation; convolution kernel smoothness; coupled differential equations; discrete lattice networks; disparity estimation; filter parameters; global filtering; irregularities; local operators; optimization; phase difference; phase-based stereo vision; regularization scheme; system performance; variational calculus; Analog computers; Calculus; Computer networks; Differential equations; Gabor filters; Kernel; Lattices; Phase estimation; Stereo vision; System performance;

fLanguage

English

Publisher

ieee

Conference_Titel

Image Analysis and Processing, 1999. Proceedings. International Conference on

Conference_Location

Venice

Print_ISBN

0-7695-0040-4

Type

conf

DOI

10.1109/ICIAP.1999.797647

Filename

797647