Generative Adversarial Network (GAN) based Image-Deblurring

@article{Lu2022GenerativeAN,
  title={Generative Adversarial Network (GAN) based Image-Deblurring},
  author={Yu Hua Lu and Nick Polydorides},
  journal={ArXiv},
  year={2022},
  volume={abs/2208.11622}
}
This thesis analyzes the challenging problem of Image Deblurring based on classical theorems and state-of-art methods proposed in recent years. By spectral analysis we mathematically show the effective of spectral regularization methods, and point out the linking between the spectral filtering result and the solution of the regularization optimization objective. For ill-posed problems like image deblurring, the optimization objective contains a regularization term (also called the… 
View PDF on arXiv

References

SHOWING 1-10 OF 41 REFERENCES

Adversarial Regularizers in Inverse Problems

This work proposes a new framework for applying data-driven approaches to inverse problems, using a neural network as a regularization functional, that can be applied even if only unsupervised training data is available.

Precomputed Real-Time Texture Synthesis with Markovian Generative Adversarial Networks

Markovian Generative Adversarial Networks (MGANs) are proposed, a method for training generative networks for efficient texture synthesis that surpasses previous neural texture synthesizers by a significant margin and applies to texture synthesis, style transfer, and video stylization.

DeblurGAN: Blind Motion Deblurring Using Conditional Adversarial Networks

DeblurGAN achieves state-of-the art performance both in the structural similarity measure and visual appearance and is 5 times faster than the closest competitor - Deep-Deblur.

Image-to-Image Translation with Conditional Adversarial Networks

Conditional adversarial networks are investigated as a general-purpose solution to image-to-image translation problems and it is demonstrated that this approach is effective at synthesizing photos from label maps, reconstructing objects from edge maps, and colorizing images, among other tasks.

LEUGAN: Low-Light Image Enhancement by Unsupervised Generative Attentional Networks

An unsupervised generation network with attention-guidance to handle the lowlight image enhancement task, which contains an edge auxiliary module that restores sharper edges and an attention guidance module that recovers more realistic colors.

DeblurGAN-v2: Deblurring (Orders-of-Magnitude) Faster and Better

It is demonstrated that DeblurGAN-V2 has very competitive performance on several popular benchmarks, in terms of deblurring quality (both objective and subjective), as well as efficiency, and is effective for general image restoration tasks too.

Improved Techniques for Training GANs

This work focuses on two applications of GANs: semi-supervised learning, and the generation of images that humans find visually realistic, and presents ImageNet samples with unprecedented resolution and shows that the methods enable the model to learn recognizable features of ImageNet classes.

A deep convolutional neural network for simultaneous denoising and deblurring in computed tomography

Computed tomography (CT) has been commonly used for providing medical images. However, CT scans have a potential risk of side-effect due to high radiation dose. In order to overcome this limitation,

Improved Training of Wasserstein GANs

This work proposes an alternative to clipping weights: penalize the norm of gradient of the critic with respect to its input, which performs better than standard WGAN and enables stable training of a wide variety of GAN architectures with almost no hyperparameter tuning.

Blind and Semi-Blind Deblurring of Natural Images

The method is able to handle unconstrained blurs, but also allows the use of constraints or of prior information on the blurring filter, as well as theUse of filters defined in a parametric manner and shows to be applicable to a much wider range of blurs.