Deqing Sun scite author profile

We present a compact but effective CNN model for optical flow, called PWC-Net. PWC-Net has been designed according to simple and well-established principles: pyramidal processing, warping, and the use of a cost volume. Cast in a learnable feature pyramid, PWC-Net uses the current optical flow estimate to warp the CNN features of the second image. It then uses the warped features and features of the first image to construct a cost volume, which is processed by a CNN to estimate the optical flow. PWC-Net is 17 times smaller in size and easier to train than the recent FlowNet2 model. Moreover, it outperforms all published optical flow methods on the MPI Sintel final pass and KITTI 2015 benchmarks, running at about 35 fps on Sintel resolution (1024×436) images. Our models are available on https://github.com/NVlabs/PWC-Net.

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Secrets of optical flow estimation and their principles

Sun

2010

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Super SloMo: High Quality Estimation of Multiple Intermediate Frames for Video Interpolation

Jiang

Sun²,

Jampani³

et al. 2018

757

761

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Given two consecutive frames, video interpolation aims at generating intermediate frame(s) to form both spatially and temporally coherent video sequences. While most existing methods focus on single-frame interpolation, we propose an end-to-end convolutional neural network for variable-length multi-frame video interpolation, where the motion interpretation and occlusion reasoning are jointly modeled. We start by computing bi-directional optical flow between the input images using a U-Net architecture. These flows are then linearly combined at each time step to approximate the intermediate bi-directional optical flows. These approximate flows, however, only work well in locally smooth regions and produce artifacts around motion boundaries. To address this shortcoming, we employ another U-Net to refine the approximated flow and also predict soft visibility maps. Finally, the two input images are warped and linearly fused to form each intermediate frame. By applying the visibility maps to the warped images before fusion, we exclude the contribution of occluded pixels to the interpolated intermediate frame to avoid artifacts. Since none of our learned network parameters are time-dependent, our approach is able to produce as many intermediate frames as needed. To train our network, we use 1,132 240-fps video clips, containing 300K individual video frames. Experimental results on several datasets, predicting different numbers of interpolated frames, demonstrate that our approach performs consistently better than existing methods.

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Blind Image Deblurring Using Dark Channel Prior

et al. 2016

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NTIRE 2017 Challenge on Single Image Super-Resolution: Methods and Results

Timofte

Agustsson

Gool³

et al. 2017

1,094

549

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Deqing Sun

PWC-Net: CNNs for Optical Flow Using Pyramid, Warping, and Cost Volume

Secrets of optical flow estimation and their principles

Super SloMo: High Quality Estimation of Multiple Intermediate Frames for Video Interpolation

Blind Image Deblurring Using Dark Channel Prior

NTIRE 2017 Challenge on Single Image Super-Resolution: Methods and Results

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