Orest Kupyn scite author profile

We present DeblurGAN, an end-to-end learned method for motion deblurring. The learning is based on a conditional GAN and the content loss . DeblurGAN achieves state-of-the art performance both in the structural similarity measure and visual appearance. The quality of the deblurring model is also evaluated in a novel way on a real-world problem -object detection on (de-)blurred images. The method is 5 times faster than the closest competitor -Deep-Deblur [25]. We also introduce a novel method for generating synthetic motion blurred images from sharp ones, allowing realistic dataset augmentation.The model, code and the dataset are available at

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

Kupyn

Martyniuk

et al. 2019

868

654

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We present a new end-to-end generative adversarial network (GAN) for single image motion deblurring, named DeblurGAN-v2, which considerably boosts state-of-the-art deblurring efficiency, quality, and flexibility. DeblurGAN-v2 is based on a relativistic conditional GAN with a doublescale discriminator. For the first time, we introduce the Feature Pyramid Network into deblurring, as a core building block in the generator of DeblurGAN-v2. It can flexibly work with a wide range of backbones, to navigate the balance between performance and efficiency. The plugin of sophisticated backbones (e.g., Inception-ResNet-v2) can lead to solid state-of-the-art deblurring. Meanwhile, with light-weight backbones (e.g., MobileNet and its variants), DeblurGAN-v2 reaches 10-100 times faster than the nearest competitors, while maintaining close to state-ofthe-art results, implying the option of real-time video deblurring. We demonstrate that DeblurGAN-v2 obtains very competitive performance on several popular benchmarks, in terms of deblurring quality (both objective and subjective), as well as efficiency. Besides, we show the architecture to be effective for general image restoration tasks too. Our codes, models and data are available at: https: //github.com/KupynOrest/DeblurGANv2.

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DeblurGAN: Blind Motion Deblurring Using Conditional Adversarial Networks

Kupyn¹,

Budzan²,

Mykhailych³

et al. 2017

Preprint

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DAD-3DHeads: A Large-scale Dense, Accurate and Diverse Dataset for 3D Head Alignment from a Single Image

Martyniuk

Kupyn

Kurlyak

et al. 2022

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

Kupyn¹,

Martyniuk²,

Wu³

et al. 2019

Preprint

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Orest Kupyn

DeblurGAN: Blind Motion Deblurring Using Conditional Adversarial Networks

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

DeblurGAN: Blind Motion Deblurring Using Conditional Adversarial Networks

DAD-3DHeads: A Large-scale Dense, Accurate and Diverse Dataset for 3D Head Alignment from a Single Image

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

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