A simple model for image formation in linear shift-invariant systems is considered, in which both the detected signal and the noise variance are varying slowly compared to the point-spread function of the system. It is shown that within the constraints of this model, the square of the signal-to-noise ratio is always proportional to the "volume" of the spatial resolution unit. In the case of Poisson statistics, the ratio of these two quantities divided by the incident density of the imaging particles (e.g. photons) represents a dimensionless invariant of the imaging system, which was previously termed the intrinsic imaging quality. The relationship of this invariant to the notion of information capacity of communication and imaging systems, ...
The resolution of an imaging system is a key property that, despite many advances in optical imaging...
In the recent past, the increased use of optical microscopes in quantitative studies, such as single...
International audienceA novel generalized linear transfer theory describing the signal and noise tra...
A simple model for image formation in linear shift-invariant systems is considered, in which both th...
It is shown that in a broad class of linear systems, including general linear shift-invariant system...
It is shown that the average signal-to-noise ratio (SNR) in the three-dimensional electron-density d...
Remote sensing and astronomical image formation is often complicated by deficiencies in measurement ...
In an earlier paper [J. Opt. Soc. Am. A 2, 1769 (1985)] a class of nonlinear image processing operat...
This paper analyzes the tradeoff between spatial resolution and noise for simple pinhole imaging sys...
© 2015 Society of Photo-Optical Instrumentation Engineers. The image spectrum signal-to-noise ratio ...
In digital radiographic systems, a tradeoff exists between image resolution (or blur) and noise char...
We consider imaging with passive arrays of sensors using as illumination ambient noise sources. The ...
Resolution analysis for imaging with in the presence of noise is presented. Novel, simple definition...
The method of photon-counting integral imaging has been introduced recently for three-dimensional o...
Abstract — This paper considers the two-point resolution of imaging systems from the viewpoint of mo...
The resolution of an imaging system is a key property that, despite many advances in optical imaging...
In the recent past, the increased use of optical microscopes in quantitative studies, such as single...
International audienceA novel generalized linear transfer theory describing the signal and noise tra...
A simple model for image formation in linear shift-invariant systems is considered, in which both th...
It is shown that in a broad class of linear systems, including general linear shift-invariant system...
It is shown that the average signal-to-noise ratio (SNR) in the three-dimensional electron-density d...
Remote sensing and astronomical image formation is often complicated by deficiencies in measurement ...
In an earlier paper [J. Opt. Soc. Am. A 2, 1769 (1985)] a class of nonlinear image processing operat...
This paper analyzes the tradeoff between spatial resolution and noise for simple pinhole imaging sys...
© 2015 Society of Photo-Optical Instrumentation Engineers. The image spectrum signal-to-noise ratio ...
In digital radiographic systems, a tradeoff exists between image resolution (or blur) and noise char...
We consider imaging with passive arrays of sensors using as illumination ambient noise sources. The ...
Resolution analysis for imaging with in the presence of noise is presented. Novel, simple definition...
The method of photon-counting integral imaging has been introduced recently for three-dimensional o...
Abstract — This paper considers the two-point resolution of imaging systems from the viewpoint of mo...
The resolution of an imaging system is a key property that, despite many advances in optical imaging...
In the recent past, the increased use of optical microscopes in quantitative studies, such as single...
International audienceA novel generalized linear transfer theory describing the signal and noise tra...