On constructing minimal ghosts

Imants Svalbe; Nikesh Nazareth; Shekhar Chandra; Nicolas Normand

doi:10.1109/DICTA.2010.56

On constructing minimal ghosts

Imants Svalbe
, Nikesh Nazareth
, Shekhar Chandra
, Nicolas Normand

School of Physics and Astronomy

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

7 Citations (Scopus)

Abstract

Ghosts are digital images that contain highly constrained patterns of signed pixel values. The pixels are located so as to create zero-sums when discrete projections are taken across the image at a predetermined set of angles. Ghosts can be applied to create image/anti-image pairs. An image that is entangled with its anti-image can be used to achieve forward error-correction in redundant data transmission schemes. Ghosts can also be used to help reconstruct images from asymmetric sets of real, noisy tomographic projection data. Minimal ghosts do these tasks most efficiently. We present here new methods to construct minimal ghost images that employ just 2N pixels to obtain zero-sum projections for N angles. Construction of an Nth order ghost had previously required O(2 N ) pixels.

Original language	English
Title of host publication	Proceedings - 2010 Digital Image Computing: Techniques and Applications, DICTA 2010
Pages	276-281
Number of pages	6
DOIs	https://doi.org/10.1109/DICTA.2010.56
Publication status	Published - 1 Dec 2010

Keywords

Discrete projection
Discrete radon
Ghost images

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10.1109/DICTA.2010.56

Cite this

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abstract = "Ghosts are digital images that contain highly constrained patterns of signed pixel values. The pixels are located so as to create zero-sums when discrete projections are taken across the image at a predetermined set of angles. Ghosts can be applied to create image/anti-image pairs. An image that is entangled with its anti-image can be used to achieve forward error-correction in redundant data transmission schemes. Ghosts can also be used to help reconstruct images from asymmetric sets of real, noisy tomographic projection data. Minimal ghosts do these tasks most efficiently. We present here new methods to construct minimal ghost images that employ just 2N pixels to obtain zero-sum projections for N angles. Construction of an Nth order ghost had previously required O(2 N ) pixels.",

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N2 - Ghosts are digital images that contain highly constrained patterns of signed pixel values. The pixels are located so as to create zero-sums when discrete projections are taken across the image at a predetermined set of angles. Ghosts can be applied to create image/anti-image pairs. An image that is entangled with its anti-image can be used to achieve forward error-correction in redundant data transmission schemes. Ghosts can also be used to help reconstruct images from asymmetric sets of real, noisy tomographic projection data. Minimal ghosts do these tasks most efficiently. We present here new methods to construct minimal ghost images that employ just 2N pixels to obtain zero-sum projections for N angles. Construction of an Nth order ghost had previously required O(2 N ) pixels.

AB - Ghosts are digital images that contain highly constrained patterns of signed pixel values. The pixels are located so as to create zero-sums when discrete projections are taken across the image at a predetermined set of angles. Ghosts can be applied to create image/anti-image pairs. An image that is entangled with its anti-image can be used to achieve forward error-correction in redundant data transmission schemes. Ghosts can also be used to help reconstruct images from asymmetric sets of real, noisy tomographic projection data. Minimal ghosts do these tasks most efficiently. We present here new methods to construct minimal ghost images that employ just 2N pixels to obtain zero-sum projections for N angles. Construction of an Nth order ghost had previously required O(2 N ) pixels.

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KW - Discrete radon

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BT - Proceedings - 2010 Digital Image Computing: Techniques and Applications, DICTA 2010

ER -

On constructing minimal ghosts

Abstract

Keywords

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