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32 results on '"Ren, Yuxi"'

1. Hyper-SD: Trajectory Segmented Consistency Model for Efficient Image Synthesis

Author

Ren, Yuxi, Xia, Xin, Lu, Yanzuo, Zhang, Jiacheng, Wu, Jie, Xie, Pan, Wang, Xing, and Xiao, Xuefeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recently, a series of diffusion-aware distillation algorithms have emerged to alleviate the computational overhead associated with the multi-step inference process of Diffusion Models (DMs). Current distillation techniques often dichotomize into two distinct aspects: i) ODE Trajectory Preservation; and ii) ODE Trajectory Reformulation. However, these approaches suffer from severe performance degradation or domain shifts. To address these limitations, we propose Hyper-SD, a novel framework that synergistically amalgamates the advantages of ODE Trajectory Preservation and Reformulation, while maintaining near-lossless performance during step compression. Firstly, we introduce Trajectory Segmented Consistency Distillation to progressively perform consistent distillation within pre-defined time-step segments, which facilitates the preservation of the original ODE trajectory from a higher-order perspective. Secondly, we incorporate human feedback learning to boost the performance of the model in a low-step regime and mitigate the performance loss incurred by the distillation process. Thirdly, we integrate score distillation to further improve the low-step generation capability of the model and offer the first attempt to leverage a unified LoRA to support the inference process at all steps. Extensive experiments and user studies demonstrate that Hyper-SD achieves SOTA performance from 1 to 8 inference steps for both SDXL and SD1.5. For example, Hyper-SDXL surpasses SDXL-Lightning by +0.68 in CLIP Score and +0.51 in Aes Score in the 1-step inference., Comment: Project Page: https://hyper-sd.github.io/

Published
2024

2. UniFL: Improve Stable Diffusion via Unified Feedback Learning

Author

Zhang, Jiacheng, Wu, Jie, Ren, Yuxi, Xia, Xin, Kuang, Huafeng, Xie, Pan, Li, Jiashi, Xiao, Xuefeng, Zheng, Min, Fu, Lean, and Li, Guanbin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Diffusion models have revolutionized the field of image generation, leading to the proliferation of high-quality models and diverse downstream applications. However, despite these significant advancements, the current competitive solutions still suffer from several limitations, including inferior visual quality, a lack of aesthetic appeal, and inefficient inference, without a comprehensive solution in sight. To address these challenges, we present UniFL, a unified framework that leverages feedback learning to enhance diffusion models comprehensively. UniFL stands out as a universal, effective, and generalizable solution applicable to various diffusion models, such as SD1.5 and SDXL. Notably, UniFL incorporates three key components: perceptual feedback learning, which enhances visual quality; decoupled feedback learning, which improves aesthetic appeal; and adversarial feedback learning, which optimizes inference speed. In-depth experiments and extensive user studies validate the superior performance of our proposed method in enhancing both the quality of generated models and their acceleration. For instance, UniFL surpasses ImageReward by 17% user preference in terms of generation quality and outperforms LCM and SDXL Turbo by 57% and 20% in 4-step inference. Moreover, we have verified the efficacy of our approach in downstream tasks, including Lora, ControlNet, and AnimateDiff.

Published
2024

3. ByteEdit: Boost, Comply and Accelerate Generative Image Editing

Author

Ren, Yuxi, Wu, Jie, Lu, Yanzuo, Kuang, Huafeng, Xia, Xin, Wang, Xionghui, Wang, Qianqian, Zhu, Yixing, Xie, Pan, Wang, Shiyin, Xiao, Xuefeng, Wang, Yitong, Zheng, Min, and Fu, Lean

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advancements in diffusion-based generative image editing have sparked a profound revolution, reshaping the landscape of image outpainting and inpainting tasks. Despite these strides, the field grapples with inherent challenges, including: i) inferior quality; ii) poor consistency; iii) insufficient instrcution adherence; iv) suboptimal generation efficiency. To address these obstacles, we present ByteEdit, an innovative feedback learning framework meticulously designed to Boost, Comply, and Accelerate Generative Image Editing tasks. ByteEdit seamlessly integrates image reward models dedicated to enhancing aesthetics and image-text alignment, while also introducing a dense, pixel-level reward model tailored to foster coherence in the output. Furthermore, we propose a pioneering adversarial and progressive feedback learning strategy to expedite the model's inference speed. Through extensive large-scale user evaluations, we demonstrate that ByteEdit surpasses leading generative image editing products, including Adobe, Canva, and MeiTu, in both generation quality and consistency. ByteEdit-Outpainting exhibits a remarkable enhancement of 388% and 135% in quality and consistency, respectively, when compared to the baseline model. Experiments also verfied that our acceleration models maintains excellent performance results in terms of quality and consistency.

Published
2024

4. ResAdapter: Domain Consistent Resolution Adapter for Diffusion Models

Author

Cheng, Jiaxiang, Xie, Pan, Xia, Xin, Li, Jiashi, Wu, Jie, Ren, Yuxi, Li, Huixia, Xiao, Xuefeng, Zheng, Min, and Fu, Lean

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent advancement in text-to-image models (e.g., Stable Diffusion) and corresponding personalized technologies (e.g., DreamBooth and LoRA) enables individuals to generate high-quality and imaginative images. However, they often suffer from limitations when generating images with resolutions outside of their trained domain. To overcome this limitation, we present the Resolution Adapter (ResAdapter), a domain-consistent adapter designed for diffusion models to generate images with unrestricted resolutions and aspect ratios. Unlike other multi-resolution generation methods that process images of static resolution with complex post-process operations, ResAdapter directly generates images with the dynamical resolution. Especially, after learning a deep understanding of pure resolution priors, ResAdapter trained on the general dataset, generates resolution-free images with personalized diffusion models while preserving their original style domain. Comprehensive experiments demonstrate that ResAdapter with only 0.5M can process images with flexible resolutions for arbitrary diffusion models. More extended experiments demonstrate that ResAdapter is compatible with other modules (e.g., ControlNet, IP-Adapter and LCM-LoRA) for image generation across a broad range of resolutions, and can be integrated into other multi-resolution model (e.g., ElasticDiffusion) for efficiently generating higher-resolution images. Project link is https://res-adapter.github.io, Comment: 21 pages, 16 figures

Published
2024

6. UGC: Unified GAN Compression for Efficient Image-to-Image Translation

Author

Ren, Yuxi, Wu, Jie, Zhang, Peng, Zhang, Manlin, Xiao, Xuefeng, He, Qian, Wang, Rui, Zheng, Min, and Pan, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent years have witnessed the prevailing progress of Generative Adversarial Networks (GANs) in image-to-image translation. However, the success of these GAN models hinges on ponderous computational costs and labor-expensive training data. Current efficient GAN learning techniques often fall into two orthogonal aspects: i) model slimming via reduced calculation costs; ii)data/label-efficient learning with fewer training data/labels. To combine the best of both worlds, we propose a new learning paradigm, Unified GAN Compression (UGC), with a unified optimization objective to seamlessly prompt the synergy of model-efficient and label-efficient learning. UGC sets up semi-supervised-driven network architecture search and adaptive online semi-supervised distillation stages sequentially, which formulates a heterogeneous mutual learning scheme to obtain an architecture-flexible, label-efficient, and performance-excellent model.

Published
2023

7. DiffusionEngine: Diffusion Model is Scalable Data Engine for Object Detection

Author

Zhang, Manlin, Wu, Jie, Ren, Yuxi, Li, Ming, Qin, Jie, Xiao, Xuefeng, Liu, Wei, Wang, Rui, Zheng, Min, and Ma, Andy J.

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Data is the cornerstone of deep learning. This paper reveals that the recently developed Diffusion Model is a scalable data engine for object detection. Existing methods for scaling up detection-oriented data often require manual collection or generative models to obtain target images, followed by data augmentation and labeling to produce training pairs, which are costly, complex, or lacking diversity. To address these issues, we presentDiffusionEngine (DE), a data scaling-up engine that provides high-quality detection-oriented training pairs in a single stage. DE consists of a pre-trained diffusion model and an effective Detection-Adapter, contributing to generating scalable, diverse and generalizable detection data in a plug-and-play manner. Detection-Adapter is learned to align the implicit semantic and location knowledge in off-the-shelf diffusion models with detection-aware signals to make better bounding-box predictions. Additionally, we contribute two datasets, i.e., COCO-DE and VOC-DE, to scale up existing detection benchmarks for facilitating follow-up research. Extensive experiments demonstrate that data scaling-up via DE can achieve significant improvements in diverse scenarios, such as various detection algorithms, self-supervised pre-training, data-sparse, label-scarce, cross-domain, and semi-supervised learning. For example, when using DE with a DINO-based adapter to scale up data, mAP is improved by 3.1% on COCO, 7.6% on VOC, and 11.5% on Clipart., Comment: Code and Models are publicly available. Project Page: https://mettyz.github.io/DiffusionEngine

Published
2023

8. Parallel Pre-trained Transformers (PPT) for Synthetic Data-based Instance Segmentation

Author

Li, Ming, Wu, Jie, Cai, Jinhang, Qin, Jie, Ren, Yuxi, Xiao, Xuefeng, Zheng, Min, Wang, Rui, and Pan, Xin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence
Abstract

Recently, Synthetic data-based Instance Segmentation has become an exceedingly favorable optimization paradigm since it leverages simulation rendering and physics to generate high-quality image-annotation pairs. In this paper, we propose a Parallel Pre-trained Transformers (PPT) framework to accomplish the synthetic data-based Instance Segmentation task. Specifically, we leverage the off-the-shelf pre-trained vision Transformers to alleviate the gap between natural and synthetic data, which helps to provide good generalization in the downstream synthetic data scene with few samples. Swin-B-based CBNet V2, SwinL-based CBNet V2 and Swin-L-based Uniformer are employed for parallel feature learning, and the results of these three models are fused by pixel-level Non-maximum Suppression (NMS) algorithm to obtain more robust results. The experimental results reveal that PPT ranks first in the CVPR2022 AVA Accessibility Vision and Autonomy Challenge, with a 65.155% mAP., Comment: The solution of 1st Place in AVA Accessibility Vision and Autonomy Challenge on CVPR 2022 workshop. Website: https://accessibility-cv.github.io/

Published
2022

10. Online Multi-Granularity Distillation for GAN Compression

Author

Ren, Yuxi, Wu, Jie, Xiao, Xuefeng, and Yang, Jianchao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Generative Adversarial Networks (GANs) have witnessed prevailing success in yielding outstanding images, however, they are burdensome to deploy on resource-constrained devices due to ponderous computational costs and hulking memory usage. Although recent efforts on compressing GANs have acquired remarkable results, they still exist potential model redundancies and can be further compressed. To solve this issue, we propose a novel online multi-granularity distillation (OMGD) scheme to obtain lightweight GANs, which contributes to generating high-fidelity images with low computational demands. We offer the first attempt to popularize single-stage online distillation for GAN-oriented compression, where the progressively promoted teacher generator helps to refine the discriminator-free based student generator. Complementary teacher generators and network layers provide comprehensive and multi-granularity concepts to enhance visual fidelity from diverse dimensions. Experimental results on four benchmark datasets demonstrate that OMGD successes to compress 40x MACs and 82.5X parameters on Pix2Pix and CycleGAN, without loss of image quality. It reveals that OMGD provides a feasible solution for the deployment of real-time image translation on resource-constrained devices. Our code and models are made public at: https://github.com/bytedance/OMGD., Comment: Accepted by ICCV2021

Published
2021

16. CircCDK17 promotes the proliferation and metastasis of ovarian cancer cells by sponging miR-22-3p to regulate CD147 expression.

Author

Qu, Bin, Sun, Lisha, Xiao, Ping, Shen, Haoming, Ren, Yuxi, and Zhang, Jing

Abstract

Ovarian cancer (OC) is a common malignancy in women of reproductive age. Circular RNAs (circRNAs) are emerging players in OC progression. We investigated the function and mechanism of circular RNA hsa_circ_0027803 (circCDK17) in OC pathogenesis. Real‑time PCR (RT-qPCR) and western blot were utilized for gene and protein expression analysis, respectively. Cell counting kit‑8 (CCK-8), EdU and Transwell assays investigated OC cell proliferation, migration and invasion. The associations between circCDK17, miR-22-3p and CD147 were examined by dual-luciferase reporter and RNA-protein immunoprecipitation (RIP) assays. The in vivo model of OC nude mice was constructed to explore the role of circCDK17. CircCDK17 was increased in OC tissue and cells, and patients with higher expression of circCDK17 had a shorter survival. CircCDK17 downregulation inhibited OC cell proliferation, migration and invasion, and reduced epithelial-mesenchymal transition (EMT)-related markers. In vivo experiments showed that circCDK17 silencing inhibited OC tumor growth and metastasis. CircCDK17 depletion reduced CD147 level via sponging miR-22-3p. MiR-22-3p knockdown overturned effect of circCDK17 depletion on OC cell proliferation, migration and invasion. Meanwhile, overexpressed CD147 restored functions of circCDK17 downregulation on OC development. CircCDK17 is an important molecule that regulates OC pathogenic process through miR-22-3p/CD147. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Evaluating the Impact of Academic Primary Care Research Institutions: A Computational Scientometric Methodology.

Author

Meaney, Christopher, Selby, Peter, O'Brien, Mary Ann, de Rege, Jaya, Ren, Yuxi Lily, and Zhuona Selena Ma

Subjects
PRIMARY care, DATABASES, COMMUNITY health services, RESEARCH personnel, GRANTS (Money)
Abstract

Context: Academic research programs are increasingly making decisions (hiring, promotion, annual reviews/evaluation, grant funding, etc.) on the basis of quantitative key performance indicators (e.g. scientometrics). Objective: To illustrate how open-source scientific software (e.g. R/Python) can be used to efficiently and cost-effectively mine these scientometric indicators. Study design and Analysis: Retrospective cohort. We identify individual researchers on the basis of persistent identification variables, and extract bibliometric information regarding the cohort. We integrate the mined bibliometric database with other data sources (e.g. Altmetric, journal impact, etc.). We curate a comprehensive scientometric database, and illustrate how descriptive statistics can be used to characterize aspects of research output and impact. Data Sources: Elsevier Scopus database (bibliometrics); SCImago Journal Rank database; and the Altmetric database (social attention). Population studied: Primary care researchers from the University of Toronto Department of Family and Community Medicine (DFCM); as well as researchers from other leading academic primary care research institutions. Outcomes Measured: Publications, citations, social attention and altmetrics, metrics of research collaboration, and thematic domains of research activity. Results: The University of Toronto DFCM ranked highly with respect to scientometric measures studied. Future work is needed to better understand organization structure at comparative institutions, and frame the responsible use of scientometric indicators in primary care research institutions. Conclusions: The proposed scientometric methodology offers a passive, open/transparent, scalable, and cost-effective mechanism for generating performance indicators related to research outputs (at the level of individual publications, researchers, or institutions). [ABSTRACT FROM AUTHOR]

Published
2023

32. Electrosynthesis of glyceraldehyde by cyclic nano-MnO2/Mn2+ in bipolar membrane-equipped electrolytic cell

Author

Ren, Yuxi, Chen, Zhen, Cai, Yanhong, and Lin, Jinhuo

Subjects
*NANOSTRUCTURED materials, *MANGANESE oxides, *ALDEHYDES, *ARTIFICIAL membranes, *ELECTROLYTIC cells, *POLYMERIC composites, *POLYACRYLAMIDE, *CELLULOSE, *CROSSLINKED polymers
Abstract

Abstract: The composite PAM/CMC bipolar membrane (BPM) consisted of polyacrylamide (PAM) and carboxymethylcellulose (CMC) cross-linked by glutaraldehyde and Fe3+, respectively. The PAM/CMC BPM with high permselectivity and good thermal stability was then applied as a separator in the electrolytic cell for the electrosynthesis of glyceraldehyde (GAD) using nano-MnO2/Mn2+ as the cyclic and reproducible intermediate. The cyclic nano-MnO2/Mn2+ intermediate illustrated a good reversibility shown in the cyclic voltammetry. The cross-section SEM image of PAM/CMC BPM illustrated a laminate of a juxtaposed PAM layer joining to CMC layer with a clear interface. The yield of GAD approached 91.6% and the current efficiency reached 65.5%. [Copyright &y& Elsevier]

Published
2011
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