Gureyev, Timur; Nesterets, Yakov; de Hoog, Frank; Schmalz, Gerd; Mayo, Sheridan C; Mohammadi, Sara; Tromba, Giuliana

Author(s)

Gureyev, Timur

Nesterets, Yakov

de Hoog, Frank

Schmalz, Gerd

Mayo, Sheridan C

Mohammadi, Sara

Tromba, Giuliana

Publication Date

2014

Abstract

It is shown that in a broad class of linear systems, including general linear shift-invariant systems, the spatial resolution and the noise satisfy a duality relationship, resembling the uncertainty principle in quantum mechanics. The product of the spatial resolution and the standard deviation of output noise in such systems represents a type of phase-space volume that is invariant with respect to linear scaling of the point-spread function, and it cannot be made smaller than a certain positive absolute lower limit. A corresponding intrinsic 'quality' characteristic is introduced and then evaluated for the cases of some popular imaging systems, including computed tomography, generic image convolution and phasecontrast imaging. It is shown that in the latter case the spatial resolution and the noise can sometimes be decoupled, potentially leading to a substantial increase in the imaging quality.

Citation

Optics Express, 22(8), p. 9087-9094

ISSN

1094-4087

Link

https://hdl.handle.net/1959.11/14990

Publisher

Optical Society of America

Title

Duality between noise and spatial resolution in linear systems

Type of document

Journal Article

Entity Type

Publication

Author(s)	Gureyev, Timur Nesterets, Yakov de Hoog, Frank Schmalz, Gerd Mayo, Sheridan C Mohammadi, Sara Tromba, Giuliana
Publication Date	2014
Abstract	It is shown that in a broad class of linear systems, including general linear shift-invariant systems, the spatial resolution and the noise satisfy a duality relationship, resembling the uncertainty principle in quantum mechanics. The product of the spatial resolution and the standard deviation of output noise in such systems represents a type of phase-space volume that is invariant with respect to linear scaling of the point-spread function, and it cannot be made smaller than a certain positive absolute lower limit. A corresponding intrinsic 'quality' characteristic is introduced and then evaluated for the cases of some popular imaging systems, including computed tomography, generic image convolution and phasecontrast imaging. It is shown that in the latter case the spatial resolution and the noise can sometimes be decoupled, potentially leading to a substantial increase in the imaging quality.
Citation	Optics Express, 22(8), p. 9087-9094
ISSN	1094-4087
Link	https://hdl.handle.net/1959.11/14990
Publisher	Optical Society of America
Title	Duality between noise and spatial resolution in linear systems
Type of document	Journal Article
Entity Type	Publication

Duality between noise and spatial resolution in linear systems

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