Reconstruction of scalar diffraction field from distributed data points over 3D space
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Date
2007Journal Title
Proceedings of 3DTV-CON
Language
English
Type
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http://hdl.handle.net/11693/27011Abstract
Diffraction field computation is an important task in the signal conversion stage of the holographic 3DTV. We consider an abstract setting, where the diffraction field of the desired 3D scene to be displayed is given by discrete samples distributed over 3D space. Based on these samples, a model of the diffraction field should be built to allow the field computation at any desired point. In our previous works, we have proved our concepts for the simplistic 2D case. In this paper, we generalize the earlier proposed techniques, namely the projection onto convex sets and conjugate gradient based techniques and test them for their computational efficiency and memory requirements for a specific 3D case.
Published as
http://dx.doi.org/10.1109/3DTV.2007.4379447Keywords
Conjugate gradientPlane wave decomposition
Projection onto convex sets
Rayleigh - Sommerfeld diffraction
Scalar optical diffraction
Communication channels (information theory)
Computational efficiency
Conjugate gradient method
Diffraction
Digital television
Elastic waves
Set theory
Three dimensional
Conjugate gradient
Plane wave decomposition
Projection onto convex sets
Rayleigh - Sommerfeld diffraction
Scalar optical diffraction
Television broadcasting
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