Abstract
This paper discusses new methods for processing images in the photon-limited regime where the number of photons per pixel is binary. We present a new Bayesian denoising method for binary, single-photon images. Each pixel measurement is assumed to follow a Bernoulli distribution whose mean is related by a nonlinear function to the underlying intensity value to be recovered. Adopting a Bayesian approach, we assign the unknown intensity field a smoothness promoting spatial and potentially temporal prior while enforcing the positivity of the intensity. A stochastic simulation method is then used to sample the resulting joint posterior distribution and estimate the unknown intensity, as well as the regularization parameters. We show that this new unsupervised denoising method can also be used to analyze images corrupted by Poisson noise. The proposed algorithm is compared to state-of-the art denoising techniques dedicated to photon-limited images using synthetic and real single-photon measurements. The results presented illustrate the potential benefits of the proposed methodology for photon-limited imaging, in particular with non photon-number resolving detectors.
Highlights
S INGLE-PHOTON detectors (SPDs) are ubiquitous for applications where the light flux to be analysed is quantified at photonic levels
3) We develop a new efficient Markov chain Monte Carlo method adapted to the Bayesian models considered, in particular to account for the binary nature of the observed images
4) dedicated to binary images, we show that the proposed method can be applied to images corrupted by Poisson noise
Summary
Yoann Altmann, Member, IEEE, Reuben Aspden, Miles Padgett, and Steve McLaughlin, Fellow, IEEE. Abstract—This paper discusses new methods for processing images in the photon-limited regime where the number of photons per pixel is binary. We present a new Bayesian denoising method for binary, single-photon images. A stochastic simulation method is used to sample the resulting joint posterior distribution and estimate the unknown intensity, as well as the regularization parameters. We show that this new unsupervised denoising method can be used to analyze images corrupted by Poisson noise. The proposed algorithm is compared to state-of-the art denoising techniques dedicated to photon-limited images using synthetic and real single-photon measurements. The results presented illustrate the potential benefits of the proposed methodology for photon-limited imaging, in particular with non photon-number resolving detectors
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