English

Wavefront Randomization Improves Deconvolution

Computer Vision and Pattern Recognition 2024-02-14 v2 Image and Video Processing Optics
Authors: Amit Kohli , Anastasios N. Angelopoulos , Laura Waller
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Abstract

The performance of an imaging system is limited by optical aberrations, which cause blurriness in the resulting image. Digital correction techniques, such as deconvolution, have limited ability to correct the blur, since some spatial frequencies in the scene are not measured adequately (i.e., 'zeros' of the system transfer function). We prove that the addition of a random mask to an imaging system removes its dependence on aberrations, reducing the likelihood of zeros in the transfer function and consequently decreasing the sensitivity to noise during deconvolution. In simulation, we show that this strategy improves image quality over a range of aberration types, aberration strengths, and signal-to-noise ratios.

Keywords

image deblurring image denoising image dehazing

Cite

@article{arxiv.2402.07900,
  title  = {Wavefront Randomization Improves Deconvolution},
  author = {Amit Kohli and Anastasios N. Angelopoulos and Laura Waller},
  journal= {arXiv preprint arXiv:2402.07900},
  year   = {2024}
}

Comments

The first two authors contributed equally

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