Zihang Jiang scite author profile

In this paper, we present a novel strategy to design disentangled 3D face shape representation. Specifically, a given 3D face shape is decomposed into identity part and expression part, which are both encoded in a nonlinear way. To solve this problem, we propose an attribute decomposition framework for 3D face mesh. To better represent face shapes which are usually nonlinear deformed between each other, the face shapes are represented by a vertex based deformation representation rather than Euclidean coordinates. The experimental results demonstrate that our method has better performance than existing methods on decomposing the identity and expression parts. Moreover, more natural expression transfer results can be achieved with our method than existing methods.

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VOLO: Vision Outlooker for Visual Recognition

Li¹,

Hou²,

Jiang³

et al. 2021

Preprint

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Visual recognition has been dominated by convolutional neural networks (CNNs) for years. Though recently the prevailing vision transformers (ViTs) have shown great potential of self-attention based models in ImageNet classification, their performance is still inferior to that of the latest SOTA CNNs if no extra data are provided. In this work, we try to close the performance gap and demonstrate that attention-based models are indeed able to outperform CNNs. We find a major factor limiting the performance of ViTs for ImageNet classification is their low efficacy in encoding fine-level features into the token representations. To resolve this, we introduce a novel outlook attention and present a simple and general architecture, termed Vision Outlooker (VOLO). Unlike self-attention that focuses on global dependency modeling at a coarse level, the outlook attention efficiently encodes finer-level features and contexts into tokens, which is shown to be critically beneficial to recognition performance but largely ignored by the self-attention. Experiments show that our VOLO achieves 87.1% top-1 accuracy on ImageNet-1K classification, which is the first model exceeding 87% accuracy on this competitive benchmark, without using any extra training data. In addition, the pre-trained VOLO transfers well to downstream tasks, such as semantic segmentation. We achieve 84.3% mIoU score on the cityscapes validation set and 54.3% on the ADE20K validation set. Code is available at https://github.com/sail-sg/volo.

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Vision Permutator: A Permutable MLP-Like Architecture for Visual Recognition

Hou

Jiang

et al. 2023

IEEE Trans. Pattern Anal. Mach. Intell.

125

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3D Face Reconstruction From A Single Image Assisted by 2D Face Images in the Wild

Tu¹,

Zhao²,

Xie³

et al. 2021

IEEE Trans. Multimedia

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Zihang Jiang

Tokens-to-Token ViT: Training Vision Transformers from Scratch on ImageNet

Disentangled Representation Learning for 3D Face Shape

VOLO: Vision Outlooker for Visual Recognition

Vision Permutator: A Permutable MLP-Like Architecture for Visual Recognition

3D Face Reconstruction From A Single Image Assisted by 2D Face Images in the Wild

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