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319 results on '"Xiao, Zeyu"'

1. Mamba-based Light Field Super-Resolution with Efficient Subspace Scanning

Author

Gao, Ruisheng, Xiao, Zeyu, and Xiong, Zhiwei

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Transformer-based methods have demonstrated impressive performance in 4D light field (LF) super-resolution by effectively modeling long-range spatial-angular correlations, but their quadratic complexity hinders the efficient processing of high resolution 4D inputs, resulting in slow inference speed and high memory cost. As a compromise, most prior work adopts a patch-based strategy, which fails to leverage the full information from the entire input LFs. The recently proposed selective state-space model, Mamba, has gained popularity for its efficient long-range sequence modeling. In this paper, we propose a Mamba-based Light Field Super-Resolution method, named MLFSR, by designing an efficient subspace scanning strategy. Specifically, we tokenize 4D LFs into subspace sequences and conduct bi-directional scanning on each subspace. Based on our scanning strategy, we then design the Mamba-based Global Interaction (MGI) module to capture global information and the local Spatial- Angular Modulator (SAM) to complement local details. Additionally, we introduce a Transformer-to-Mamba (T2M) loss to further enhance overall performance. Extensive experiments on public benchmarks demonstrate that MLFSR surpasses CNN-based models and rivals Transformer-based methods in performance while maintaining higher efficiency. With quicker inference speed and reduced memory demand, MLFSR facilitates full-image processing of high-resolution 4D LFs with enhanced performance., Comment: 17 pages,7 figures

Published
2024

2. Incorporating Degradation Estimation in Light Field Spatial Super-Resolution

Author

Xiao, Zeyu and Xiong, Zhiwei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advancements in light field super-resolution (SR) have yielded impressive results. In practice, however, many existing methods are limited by assuming fixed degradation models, such as bicubic downsampling, which hinders their robustness in real-world scenarios with complex degradations. To address this limitation, we present LF-DEST, an effective blind Light Field SR method that incorporates explicit Degradation Estimation to handle various degradation types. LF-DEST consists of two primary components: degradation estimation and light field restoration. The former concurrently estimates blur kernels and noise maps from low-resolution degraded light fields, while the latter generates super-resolved light fields based on the estimated degradations. Notably, we introduce a modulated and selective fusion module that intelligently combines degradation representations with image information, allowing for effective handling of diverse degradation types. We conduct extensive experiments on benchmark datasets, demonstrating that LF-DEST achieves superior performance across a variety of degradation scenarios in light field SR.

Published
2024

3. SMCD: High Realism Motion Style Transfer via Mamba-based Diffusion

Author

Qian, Ziyun, Xiao, Zeyu, Wu, Zhenyi, Yang, Dingkang, Li, Mingcheng, Wang, Shunli, Wang, Shuaibing, Kou, Dongliang, and Zhang, Lihua

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Motion style transfer is a significant research direction in multimedia applications. It enables the rapid switching of different styles of the same motion for virtual digital humans, thus vastly increasing the diversity and realism of movements. It is widely applied in multimedia scenarios such as movies, games, and the Metaverse. However, most of the current work in this field adopts the GAN, which may lead to instability and convergence issues, making the final generated motion sequence somewhat chaotic and unable to reflect a highly realistic and natural style. To address these problems, we consider style motion as a condition and propose the Style Motion Conditioned Diffusion (SMCD) framework for the first time, which can more comprehensively learn the style features of motion. Moreover, we apply Mamba model for the first time in the motion style transfer field, introducing the Motion Style Mamba (MSM) module to handle longer motion sequences. Thirdly, aiming at the SMCD framework, we propose Diffusion-based Content Consistency Loss and Content Consistency Loss to assist the overall framework's training. Finally, we conduct extensive experiments. The results reveal that our method surpasses state-of-the-art methods in both qualitative and quantitative comparisons, capable of generating more realistic motion sequences.

Published
2024

5. Diffusion-based Light Field Synthesis

Author

Gao, Ruisheng, Liu, Yutong, Xiao, Zeyu, and Xiong, Zhiwei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Light fields (LFs), conducive to comprehensive scene radiance recorded across angular dimensions, find wide applications in 3D reconstruction, virtual reality, and computational photography.However, the LF acquisition is inevitably time-consuming and resource-intensive due to the mainstream acquisition strategy involving manual capture or laborious software synthesis.Given such a challenge, we introduce LFdiff, a straightforward yet effective diffusion-based generative framework tailored for LF synthesis, which adopts only a single RGB image as input.LFdiff leverages disparity estimated by a monocular depth estimation network and incorporates two distinctive components: a novel condition scheme and a noise estimation network tailored for LF data.Specifically, we design a position-aware warping condition scheme, enhancing inter-view geometry learning via a robust conditional signal.We then propose DistgUnet, a disentanglement-based noise estimation network, to harness comprehensive LF representations.Extensive experiments demonstrate that LFdiff excels in synthesizing visually pleasing and disparity-controllable light fields with enhanced generalization capability.Additionally, comprehensive results affirm the broad applicability of the generated LF data, spanning applications like LF super-resolution and refocusing., Comment: 11 pages,9 figures

Published
2024

7. Beyond Sole Strength: Customized Ensembles for Generalized Vision-Language Models

Author

Lu, Zhihe, Bai, Jiawang, Li, Xin, Xiao, Zeyu, and Wang, Xinchao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Fine-tuning pre-trained vision-language models (VLMs), e.g., CLIP, for the open-world generalization has gained increasing popularity due to its practical value. However, performance advancements are limited when relying solely on intricate algorithmic designs for a single model, even one exhibiting strong performance, e.g., CLIP-ViT-B/16. This paper, for the first time, explores the collaborative potential of leveraging much weaker VLMs to enhance the generalization of a robust single model. The affirmative findings motivate us to address the generalization problem from a novel perspective, i.e., ensemble of pre-trained VLMs. We introduce three customized ensemble strategies, each tailored to one specific scenario. Firstly, we introduce the zero-shot ensemble, automatically adjusting the logits of different models based on their confidence when only pre-trained VLMs are available. Furthermore, for scenarios with extra few-shot samples, we propose the training-free and tuning ensemble, offering flexibility based on the availability of computing resources. The proposed ensemble strategies are evaluated on zero-shot, base-to-new, and cross-dataset generalization, achieving new state-of-the-art performance. Notably, this work represents an initial stride toward enhancing the generalization performance of VLMs via ensemble. The code is available at https://github.com/zhiheLu/Ensemble_VLM.git., Comment: Accepted on ICML 2024

Published
2023

8. Toward Real-World Light Field Super-Resolution

Author

Xiao, Zeyu, Gao, Ruisheng, Liu, Yutong, Zhang, Yueyi, and Xiong, Zhiwei

Subjects
Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Deep learning has opened up new possibilities for light field super-resolution (SR), but existing methods trained on synthetic datasets with simple degradations (e.g., bicubic downsampling) suffer from poor performance when applied to complex real-world scenarios. To address this problem, we introduce LytroZoom, the first real-world light field SR dataset capturing paired low- and high-resolution light fields of diverse indoor and outdoor scenes using a Lytro ILLUM camera. Additionally, we propose the Omni-Frequency Projection Network (OFPNet), which decomposes the omni-frequency components and iteratively enhances them through frequency projection operations to address spatially variant degradation processes present in all frequency components. Experiments demonstrate that models trained on LytroZoom outperform those trained on synthetic datasets and are generalizable to diverse content and devices. Quantitative and qualitative evaluations verify the superiority of OFPNet. We believe this work will inspire future research in real-world light field SR., Comment: CVPRW 2023

Published
2023

9. A Dive into SAM Prior in Image Restoration

Author

Xiao, Zeyu, Bai, Jiawang, Lu, Zhihe, and Xiong, Zhiwei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The goal of image restoration (IR), a fundamental issue in computer vision, is to restore a high-quality (HQ) image from its degraded low-quality (LQ) observation. Multiple HQ solutions may correspond to an LQ input in this poorly posed problem, creating an ambiguous solution space. This motivates the investigation and incorporation of prior knowledge in order to effectively constrain the solution space and enhance the quality of the restored images. In spite of the pervasive use of hand-crafted and learned priors in IR, limited attention has been paid to the incorporation of knowledge from large-scale foundation models. In this paper, we for the first time leverage the prior knowledge of the state-of-the-art segment anything model (SAM) to boost the performance of existing IR networks in an parameter-efficient tuning manner. In particular, the choice of SAM is based on its robustness to image degradations, such that HQ semantic masks can be extracted from it. In order to leverage semantic priors and enhance restoration quality, we propose a lightweight SAM prior tuning (SPT) unit. This plug-and-play component allows us to effectively integrate semantic priors into existing IR networks, resulting in significant improvements in restoration quality. As the only trainable module in our method, the SPT unit has the potential to improve both efficiency and scalability. We demonstrate the effectiveness of the proposed method in enhancing a variety of methods across multiple tasks, such as image super-resolution and color image denoising., Comment: Technical Report

Published
2023

10. Can SAM Boost Video Super-Resolution?

Author

Lu, Zhihe, Xiao, Zeyu, Bai, Jiawang, Xiong, Zhiwei, and Wang, Xinchao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The primary challenge in video super-resolution (VSR) is to handle large motions in the input frames, which makes it difficult to accurately aggregate information from multiple frames. Existing works either adopt deformable convolutions or estimate optical flow as a prior to establish correspondences between frames for the effective alignment and fusion. However, they fail to take into account the valuable semantic information that can greatly enhance it; and flow-based methods heavily rely on the accuracy of a flow estimate model, which may not provide precise flows given two low-resolution frames. In this paper, we investigate a more robust and semantic-aware prior for enhanced VSR by utilizing the Segment Anything Model (SAM), a powerful foundational model that is less susceptible to image degradation. To use the SAM-based prior, we propose a simple yet effective module -- SAM-guidEd refinEment Module (SEEM), which can enhance both alignment and fusion procedures by the utilization of semantic information. This light-weight plug-in module is specifically designed to not only leverage the attention mechanism for the generation of semantic-aware feature but also be easily and seamlessly integrated into existing methods. Concretely, we apply our SEEM to two representative methods, EDVR and BasicVSR, resulting in consistently improved performance with minimal implementation effort, on three widely used VSR datasets: Vimeo-90K, REDS and Vid4. More importantly, we found that the proposed SEEM can advance the existing methods in an efficient tuning manner, providing increased flexibility in adjusting the balance between performance and the number of training parameters. Code will be open-source soon., Comment: Technical Report

Published
2023

11. Observation on the effect of hydrogel probiotics colonized in inflammatory sites in the treatment of inflammatory bowel disease

Author

XU Wei, LI Meng, WANG Haoze, CUI Kai, and XIAO Zeyu

Subjects
probiotics, hydrogel, inflammatory bowel disease, inflammatory colonization, Medicine
Abstract

Objective·To construct a probiotic (Escherichia coli Nissle1917,EcN) system (EcN@PVA-ALG) loaded on polyvinyl alcohol (PVA) / alginate (ALG) hydrogel (PVA-ALG) rich in negative hydroxyl groups, and to explore its colonization in the inflammatory site of colon and its therapeutic effect on dextran sulfate sodium salt (DSS)-induced inflammatory bowel disease (IBD).Methods·EcN suspension was added to the PVA-ALG hydrogel, and then EcN@PVA-ALG hydrogel probiotic complex was obtained after screening and centrifugation. The synthesis of PVA-ALG hydrogel was verified by rheometer. The surface charge of EcN@PVA-ALG was detected by potentiometer and the load of EcN on PVA-ALG was observed by fluorescence microscope. The absorbance of EcN@PVA-ALG at 600 nm was detected by enzyme labeling instrument. Meanwhile, the bacterial plate count of EcN@PVA-ALG complex suspension was taken to study the growth activity of EcN in EcN@PVA-ALG. The CCK-8 kit was used to assess the inhibitory ability of EcN@PVA-ALG on HEK cell proliferation. In vivo imaging system (IVIS) was used to firstly analyze the enrichment of PVA-ALG on inflammatory colon to study its inflammatory targeting property; then EcN was loaded on PVA-ALG, and IVIS was used to observe the enrichment of EcN@PVA-ALG on inflammatory colon to study its ability to colonize the inflammatory site. To establish the model of IBD mice induced by DSS, EcN@PVA-ALG group (n=5) was given 1×108CFU EcN@PVA-ALG every day for 5 d, and PVA-ALG group, EcN group, PBS group and healthy control group with 5 mice were set up. During the treatment, the body mass of the mice was recorded every day. After treatment, the colonic tissue was taken, and the length of colon was measured. The disease activity index (DAI) score was graded. The levels of inflammatory cytokines, including tumor necrosis factor-α (TNF-α), interleukin (IL)-6, IL-10 and transforming growth factor-β (TGF-β) were detected, and the pathological evaluation of colonic tissue was made by H-E staining.Results·Both PVA-ALG and EcN@PVA-ALG were negatively charged. EcN was successfully loaded onto PVA-ALG and PVA-ALG did not affect the growth viability of EcN, which contributed to the subsequent colonization of inflammatory colons. PVA-ALG had a favorable safety profile on normal cells. Compared with healthy controls, PVA-ALG had more than 2-fold enrichment effect on inflammatory colon tissue. In vitro and in vivo experiments revealed that EcN@PVA-ALG complex loaded with EcN had 8 times higher enrichment effect on inflammatory tissue than EcN without any modification. After EcN@PVA-ALG treatment, the body weight of mice recovered rapidly. The increase of DAI was significantly inhibited. The length of colon was similar to that of healthy mice. The levels of TNF- α and IL-6 decreased, while the levels of IL-10 and TGF- β increased. The crypt structure of colon tissue recovered.Conclusion·Compared to unmodified EcN, EcN@PVA-ALG promotes the colonization of EcN at inflammatory sites of colon and allows it to exert better efficacy on treating DSS-induced IBD.

Published
2024
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12. Research and Prospects of Anticoagulant Drugs: A Review

Author

Xiao, Zeyu, Striełkowski, Wadim, Editor-in-Chief, Black, Jessica M., Series Editor, Butterfield, Stephen A., Series Editor, Chang, Chi-Cheng, Series Editor, Cheng, Jiuqing, Series Editor, Dumanig, Francisco Perlas, Series Editor, Al-Mabuk, Radhi, Series Editor, Scheper-Hughes, Nancy, Series Editor, Urban, Mathias, Series Editor, Webb, Stephen, Series Editor, Shi, Lei, editor, Malik, Nadeem, editor, San, Ong Tze, editor, and Lu, Jun, editor

Published
2024
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41. Frequency and Spatial Dual Guidance for Image Dehazing

Author

Yu, Hu, Zheng, Naishan, Zhou, Man, Huang, Jie, Xiao, Zeyu, Zhao, Feng, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Avidan, Shai, editor, Brostow, Gabriel, editor, Cissé, Moustapha, editor, Farinella, Giovanni Maria, editor, and Hassner, Tal, editor

Published
2022
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43. Correction to: The relationship between imaging features, therapeutic response, and overall survival in pediatric diffuse intrinsic pontine glioma

Author

Yu, Xiaojun, primary, Lai, Mingyao, additional, Li, Juan, additional, Wang, Lichao, additional, Ye, Kunlin, additional, Zhang, Dong, additional, Hu, Qingjun, additional, Li, Shaoqun, additional, Hu, Xinpeng, additional, Wang, Qiong, additional, Ma, Mengjie, additional, Xiao, Zeyu, additional, Zhou, Jiangfen, additional, Shi, Changzheng, additional, Luo, Liangping, additional, and Cai, Linbo, additional

Published
2024
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