Shangzhe Wu scite author profile

This paper proposes the first non-flow-based deep framework for high dynamic range (HDR) imaging of dynamic scenes with large-scale foreground motions. In state-of-the-art deep HDR imaging, input images are first aligned using optical flows before merging, which are still error-prone due to occlusion and large motions. In stark contrast to flow-based methods, we formulate HDR imaging as an image translation problem without optical flows. Moreover, our simple translation network can automatically hallucinate plausible HDR details in the presence of total occlusion, saturation and under-exposure, which are otherwise almost impossible to recover by conventional optimization approaches. Our framework can also be extended for different reference images. We performed extensive qualitative and quantitative comparisons to show that our approach produces excellent results where color artifacts and geometric distortions are significantly reduced compared to existing state-of-the-art methods, and is robust across various inputs, including images without radiometric calibration.

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Unsupervised Learning of Probably Symmetric Deformable 3D Objects From Images in the Wild

Rupprecht

Vedaldi

2020

247

229

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NeRF--: Neural Radiance Fields Without Known Camera Parameters

Wang¹,

Wu²,

Xie³

et al. 2021

Preprint

108

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Image Generation from Sketch Constraint Using Contextual GAN

Tai

et al. 2018

135

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In this paper we investigate image generation guided by hand sketch. When the input sketch is badly drawn, the output of common image-to-image translation follows the input edges due to the hard condition imposed by the translation process. Instead, we propose to use sketch as weak constraint, where the output edges do not necessarily follow the input edges. We address this problem using a novel joint image completion approach, where the sketch provides the image context for completing, or generating the output image. We train a generated adversarial network, i.e, contextual GAN to learn the joint distribution of sketch and the corresponding image by using joint images. Our contextual GAN has several advantages. First, the simple joint image representation allows for simple and effective learning of joint distribution in the same image-sketch space, which avoids complicated issues in crossdomain learning. Second, while the output is related to its input overall, the generated features exhibit more freedom in appearance and do not strictly align with the input features as previous conditional GANs do. Third, from the joint image's point of view, image and sketch are of no difference, thus exactly the same deep joint image completion network can be used for image-to-sketch generation. Experiments evaluated on three different datasets show that our contextual GAN can generate more realistic images than state-of-the-art conditional GANs on challenging inputs and generalize well on common categories.

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Surface parametrization and curvature measurement of arbitrary 3-D objects: five practical methods

Stokely

1992

IEEE Trans. Pattern Anal. Machine Intell.

114

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Shangzhe Wu

Deep High Dynamic Range Imaging with Large Foreground Motions

Unsupervised Learning of Probably Symmetric Deformable 3D Objects From Images in the Wild

NeRF--: Neural Radiance Fields Without Known Camera Parameters

Image Generation from Sketch Constraint Using Contextual GAN

Surface parametrization and curvature measurement of arbitrary 3-D objects: five practical methods

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