A Multiscale Denoising Framework Using Detection Theory with Application to Images from CMOS/CCD Sensors
A Multiscale Denoising Framework Using Detection Theory with Application to Images from CMOS/CCD Sensors
Output from imaging sensors based on CMOS and CCD devices is prone to noise due to inherent electronic fluctuations and low photon count. The resulting noise in the acquired image could be effectively modelled as signal-dependent Poisson noise or as a mixture of Poisson and Gaussian noise. To that end, we propose a generalized framework based on detection theory and hypothesis testing coupled with the variance stability transformation (VST) for Poisson or Poisson–Gaussian denoising. VST transforms signal-dependent Poisson noise to a signal independent Gaussian noise with stable variance. Subsequently, multiscale transforms are employed on the noisy image to segregate signal and noise into separate coefficients. That facilitates the application of local binary hypothesis testing on multiple scales using empirical distribution function (EDF) for the purpose of detection and removal of noise. We demonstrate the effectiveness of the proposed framework with different multiscale transforms and on a wide variety of input datasets.
multiscale, Gaussian and Poisson denoising, CMOS/CCD image sensors, detection theory, binary hypothesis testing, variance stability transformation (VST)
Naveed, Khuram
3e7d0277-c3b0-49e8-a1f8-1110345a9855
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
McDonald-Maier, Klaus D.
d35c2e77-744a-4318-9d9d-726459e64db9
Rehman, Naveed Ur
8cd2ee50-73fb-4df1-9bb5-b278b911b70f
8 January 2019
Naveed, Khuram
3e7d0277-c3b0-49e8-a1f8-1110345a9855
Ehsan, Shoaib
ae8922f0-dbe0-4b22-8474-98e84d852de7
McDonald-Maier, Klaus D.
d35c2e77-744a-4318-9d9d-726459e64db9
Rehman, Naveed Ur
8cd2ee50-73fb-4df1-9bb5-b278b911b70f
Naveed, Khuram, Ehsan, Shoaib, McDonald-Maier, Klaus D. and Rehman, Naveed Ur
(2019)
A Multiscale Denoising Framework Using Detection Theory with Application to Images from CMOS/CCD Sensors.
Sensors, 19 (1), [206].
(doi:10.3390/s19010206).
Abstract
Output from imaging sensors based on CMOS and CCD devices is prone to noise due to inherent electronic fluctuations and low photon count. The resulting noise in the acquired image could be effectively modelled as signal-dependent Poisson noise or as a mixture of Poisson and Gaussian noise. To that end, we propose a generalized framework based on detection theory and hypothesis testing coupled with the variance stability transformation (VST) for Poisson or Poisson–Gaussian denoising. VST transforms signal-dependent Poisson noise to a signal independent Gaussian noise with stable variance. Subsequently, multiscale transforms are employed on the noisy image to segregate signal and noise into separate coefficients. That facilitates the application of local binary hypothesis testing on multiple scales using empirical distribution function (EDF) for the purpose of detection and removal of noise. We demonstrate the effectiveness of the proposed framework with different multiscale transforms and on a wide variety of input datasets.
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Accepted/In Press date: 18 December 2018
Published date: 8 January 2019
Keywords:
multiscale, Gaussian and Poisson denoising, CMOS/CCD image sensors, detection theory, binary hypothesis testing, variance stability transformation (VST)
Identifiers
Local EPrints ID: 478935
URI: http://eprints.soton.ac.uk/id/eprint/478935
ISSN: 1424-8220
PURE UUID: 9a1a0e1c-4652-4f47-98a0-344e7d0df04e
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Date deposited: 14 Jul 2023 16:54
Last modified: 17 Mar 2024 04:16
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Contributors
Author:
Khuram Naveed
Author:
Shoaib Ehsan
Author:
Klaus D. McDonald-Maier
Author:
Naveed Ur Rehman
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