Shunzhou Wang scite author profile

In this paper, we present a novel Motion-Attentive Transition Network (MATNet) for zero-shot video object segmentation, which provides a new way of leveraging motion information to reinforce spatio-temporal object representation. An asymmetric attention block, called Motion-Attentive Transition (MAT), is designed within a two-stream encoder, which transforms appearance features into motion-attentive representations at each convolutional stage. In this way, the encoder becomes deeply interleaved, allowing for closely hierarchical interactions between object motion and appearance. This is superior to the typical two-stream architecture, which treats motion and appearance separately in each stream and often suffers from overfitting to appearance information. Additionally, a bridge network is proposed to obtain a compact, discriminative and scale-sensitive representation for multi-level encoder features, which is further fed into a decoder to achieve segmentation results. Extensive experiments on three challenging public benchmarks (i.e., DAVIS-16, FBMS and Youtube-Objects) show that our model achieves compelling performance against the state-of-the-arts. Code is available at: https://github.com/tfzhou/MATNet.

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MATNet: Motion-Attentive Transition Network for Zero-Shot Video Object Segmentation

Zhou

Wang

et al. 2020

IEEE Trans. on Image Process.

186

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Detail-Preserving Transformer for Light Field Image Super-resolution

Wang

Zhou

et al. 2022

AAAI

101

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Recently, numerous algorithms have been developed to tackle the problem of light field super-resolution (LFSR), i.e., super-resolving low-resolution light fields to gain high-resolution views. Despite delivering encouraging results, these approaches are all convolution-based, and are naturally weak in global relation modeling of sub-aperture images necessarily to characterize the inherent structure of light fields. In this paper, we put forth a novel formulation built upon Transformers, by treating LFSR as a sequence-to-sequence reconstruction task. In particular, our model regards sub-aperture images of each vertical or horizontal angular view as a sequence, and establishes long-range geometric dependencies within each sequence via a spatial-angular locally-enhanced self-attention layer, which maintains the locality of each sub-aperture image as well. Additionally, to better recover image details, we propose a detail-preserving Transformer (termed as DPT), by leveraging gradient maps of light field to guide the sequence learning. DPT consists of two branches, with each associated with a Transformer for learning from an original or gradient image sequence. The two branches are finally fused to obtain comprehensive feature representations for reconstruction. Evaluations are conducted on a number of light field datasets, including real-world scenes and synthetic data. The proposed method achieves superior performance comparing with other state-of-the-art schemes. Our code is publicly available at: https://github.com/BITszwang/DPT.

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Spatio-temporal attention mechanisms based model for collective activity recognition

et al. 2019

Signal Processing: Image Communication

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Contextual Transformation Network for Lightweight Remote-Sensing Image Super-Resolution

Wang

Zhou

et al. 2022

IEEE Trans. Geosci. Remote Sensing

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Shunzhou Wang

Motion-Attentive Transition for Zero-Shot Video Object Segmentation

MATNet: Motion-Attentive Transition Network for Zero-Shot Video Object Segmentation

Detail-Preserving Transformer for Light Field Image Super-resolution

Spatio-temporal attention mechanisms based model for collective activity recognition

Contextual Transformation Network for Lightweight Remote-Sensing Image Super-Resolution

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