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215 results on '"Yang, Guoxing"'

1. Expert-level vision-language foundation model for real-world radiology and comprehensive evaluation

Author

Liu, Xiaohong, Yang, Guoxing, Luo, Yulin, Mao, Jiaji, Zhang, Xiang, Gao, Ming, Zhang, Shanghang, Shen, Jun, and Wang, Guangyu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Radiology is a vital and complex component of modern clinical workflow and covers many tasks. Recently, vision-language (VL) foundation models in medicine have shown potential in processing multimodal information, offering a unified solution for various radiology tasks. However, existing studies either pre-trained VL models on natural data or did not fully integrate vision-language architecture and pretraining, often neglecting the unique multimodal complexity in radiology images and their textual contexts. Additionally, their practical applicability in real-world scenarios remains underexplored. Here, we present RadFound, a large and open-source vision-language foundation model tailored for radiology, that is trained on the most extensive dataset of over 8.1 million images and 250,000 image-text pairs, covering 19 major organ systems and 10 imaging modalities. To establish expert-level multimodal perception and generation capabilities, RadFound introduces an enhanced vision encoder to capture intra-image local features and inter-image contextual information, and a unified cross-modal learning design tailored to radiology. To fully assess the models' capability, we construct a benchmark, RadVLBench, including radiology interpretation tasks like medical vision-language question-answering, as well as text generation tasks ranging from captioning to report generation. We also propose a human evaluation framework. When evaluated on the real-world benchmark involving three representative modalities, 2D images (chest X-rays), multi-view images (mammograms), and 3D images (thyroid CT scans), RadFound significantly outperforms other VL foundation models on both quantitative metrics and human evaluation. In summary, the development of RadFound represents an advancement in radiology generalists, demonstrating broad applicability potential for integration into clinical workflows.

Published
2024

2. MoVL:Exploring Fusion Strategies for the Domain-Adaptive Application of Pretrained Models in Medical Imaging Tasks

Author

Tian, Haijiang, Yue, Jingkun, Liu, Xiaohong, Yang, Guoxing, Jiang, Zeyu, and Wang, Guangyu

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

Medical images are often more difficult to acquire than natural images due to the specialism of the equipment and technology, which leads to less medical image datasets. So it is hard to train a strong pretrained medical vision model. How to make the best of natural pretrained vision model and adapt in medical domain still pends. For image classification, a popular method is linear probe (LP). However, LP only considers the output after feature extraction. Yet, there exists a gap between input medical images and natural pretrained vision model. We introduce visual prompting (VP) to fill in the gap, and analyze the strategies of coupling between LP and VP. We design a joint learning loss function containing categorisation loss and discrepancy loss, which describe the variance of prompted and plain images, naming this joint training strategy MoVL (Mixture of Visual Prompting and Linear Probe). We experiment on 4 medical image classification datasets, with two mainstream architectures, ResNet and CLIP. Results shows that without changing the parameters and architecture of backbone model and with less parameters, there is potential for MoVL to achieve full finetune (FF) accuracy (on four medical datasets, average 90.91% for MoVL and 91.13% for FF). On out of distribution medical dataset, our method(90.33%) can outperform FF (85.15%) with absolute 5.18 % lead.

Published
2024

3. TCM-GPT: Efficient Pre-training of Large Language Models for Domain Adaptation in Traditional Chinese Medicine

Author

Yang, Guoxing, Shi, Jianyu, Wang, Zan, Liu, Xiaohong, and Wang, Guangyu

Subjects
Computer Science - Computation and Language, Computer Science - Artificial Intelligence
Abstract

Pre-training and fine-tuning have emerged as a promising paradigm across various natural language processing (NLP) tasks. The effectiveness of pretrained large language models (LLM) has witnessed further enhancement, holding potential for applications in the field of medicine, particularly in the context of Traditional Chinese Medicine (TCM). However, the application of these general models to specific domains often yields suboptimal results, primarily due to challenges like lack of domain knowledge, unique objectives, and computational efficiency. Furthermore, their effectiveness in specialized domains, such as Traditional Chinese Medicine, requires comprehensive evaluation. To address the above issues, we propose a novel domain specific TCMDA (TCM Domain Adaptation) approach, efficient pre-training with domain-specific corpus. Specifically, we first construct a large TCM-specific corpus, TCM-Corpus-1B, by identifying domain keywords and retreving from general corpus. Then, our TCMDA leverages the LoRA which freezes the pretrained model's weights and uses rank decomposition matrices to efficiently train specific dense layers for pre-training and fine-tuning, efficiently aligning the model with TCM-related tasks, namely TCM-GPT-7B. We further conducted extensive experiments on two TCM tasks, including TCM examination and TCM diagnosis. TCM-GPT-7B archived the best performance across both datasets, outperforming other models by relative increments of 17% and 12% in accuracy, respectively. To the best of our knowledge, our study represents the pioneering validation of domain adaptation of a large language model with 7 billion parameters in TCM domain. We will release both TCMCorpus-1B and TCM-GPT-7B model once accepted to facilitate interdisciplinary development in TCM and NLP, serving as the foundation for further study.

Published
2023

4. ClinicalGPT: Large Language Models Finetuned with Diverse Medical Data and Comprehensive Evaluation

Author

Wang, Guangyu, Yang, Guoxing, Du, Zongxin, Fan, Longjun, and Li, Xiaohu

Subjects
Computer Science - Computation and Language
Abstract

Large language models have exhibited exceptional performance on various Natural Language Processing (NLP) tasks, leveraging techniques such as the pre-training, and instruction fine-tuning. Despite these advances, their effectiveness in medical applications is limited, due to challenges such as factual inaccuracies, reasoning abilities, and lack grounding in real-world experience. In this study, we present ClinicalGPT, a language model explicitly designed and optimized for clinical scenarios. By incorporating extensive and diverse real-world data, such as medical records, domain-specific knowledge, and multi-round dialogue consultations in the training process, ClinicalGPT is better prepared to handle multiple clinical task. Furthermore, we introduce a comprehensive evaluation framework that includes medical knowledge question-answering, medical exams, patient consultations, and diagnostic analysis of medical records. Our results demonstrate that ClinicalGPT significantly outperforms other models in these tasks, highlighting the effectiveness of our approach in adapting large language models to the critical domain of healthcare.

Published
2023

5. VDT: General-purpose Video Diffusion Transformers via Mask Modeling

Author

Lu, Haoyu, Yang, Guoxing, Fei, Nanyi, Huo, Yuqi, Lu, Zhiwu, Luo, Ping, and Ding, Mingyu

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This work introduces Video Diffusion Transformer (VDT), which pioneers the use of transformers in diffusion-based video generation. It features transformer blocks with modularized temporal and spatial attention modules to leverage the rich spatial-temporal representation inherited in transformers. We also propose a unified spatial-temporal mask modeling mechanism, seamlessly integrated with the model, to cater to diverse video generation scenarios. VDT offers several appealing benefits. 1) It excels at capturing temporal dependencies to produce temporally consistent video frames and even simulate the physics and dynamics of 3D objects over time. 2) It facilitates flexible conditioning information, \eg, simple concatenation in the token space, effectively unifying different token lengths and modalities. 3) Pairing with our proposed spatial-temporal mask modeling mechanism, it becomes a general-purpose video diffuser for harnessing a range of tasks, including unconditional generation, video prediction, interpolation, animation, and completion, etc. Extensive experiments on these tasks spanning various scenarios, including autonomous driving, natural weather, human action, and physics-based simulation, demonstrate the effectiveness of VDT. Additionally, we present comprehensive studies on how \model handles conditioning information with the mask modeling mechanism, which we believe will benefit future research and advance the field. Project page: https:VDT-2023.github.io

Published
2023

6. UniAdapter: Unified Parameter-Efficient Transfer Learning for Cross-modal Modeling

Author

Lu, Haoyu, Huo, Yuqi, Yang, Guoxing, Lu, Zhiwu, Zhan, Wei, Tomizuka, Masayoshi, and Ding, Mingyu

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

Large-scale vision-language pre-trained models have shown promising transferability to various downstream tasks. As the size of these foundation models and the number of downstream tasks grow, the standard full fine-tuning paradigm becomes unsustainable due to heavy computational and storage costs. This paper proposes UniAdapter, which unifies unimodal and multimodal adapters for parameter-efficient cross-modal adaptation on pre-trained vision-language models. Specifically, adapters are distributed to different modalities and their interactions, with the total number of tunable parameters reduced by partial weight sharing. The unified and knowledge-sharing design enables powerful cross-modal representations that can benefit various downstream tasks, requiring only 1.0%-2.0% tunable parameters of the pre-trained model. Extensive experiments on 6 cross-modal downstream benchmarks (including video-text retrieval, image-text retrieval, VideoQA, and VQA) show that in most cases, UniAdapter not only outperforms the state-of-the-arts, but even beats the full fine-tuning strategy. Particularly, on the MSRVTT retrieval task, UniAdapter achieves 49.7% recall@1 with 2.2% model parameters, outperforming the latest competitors by 2.0%. The code and models are available at https://github.com/RERV/UniAdapter.

Published
2023

10. Towards artificial general intelligence via a multimodal foundation model

Author

Fei, Nanyi, Lu, Zhiwu, Gao, Yizhao, Yang, Guoxing, Huo, Yuqi, Wen, Jingyuan, Lu, Haoyu, Song, Ruihua, Gao, Xin, Xiang, Tao, Sun, Hao, and Wen, Ji-Rong

Subjects
Computer Science - Artificial Intelligence
Abstract

The fundamental goal of artificial intelligence (AI) is to mimic the core cognitive activities of human. Despite tremendous success in the AI research, most of existing methods have only single-cognitive ability. To overcome this limitation and take a solid step towards artificial general intelligence (AGI), we develop a foundation model pre-trained with huge multimodal data, which can be quickly adapted for various downstream cognitive tasks. To achieve this goal, we propose to pre-train our foundation model by self-supervised learning with weak semantic correlation data crawled from the Internet and show that promising results can be obtained on a wide range of downstream tasks. Particularly, with the developed model-interpretability tools, we demonstrate that strong imagination ability is now possessed by our foundation model. We believe that our work makes a transformative stride towards AGI, from our common practice of "weak or narrow AI" to that of "strong or generalized AI"., Comment: Published by Nature Communications, see https://www.nature.com/articles/s41467-022-30761-2

Published
2021
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14. WenLan: Bridging Vision and Language by Large-Scale Multi-Modal Pre-Training

Author

Huo, Yuqi, Zhang, Manli, Liu, Guangzhen, Lu, Haoyu, Gao, Yizhao, Yang, Guoxing, Wen, Jingyuan, Zhang, Heng, Xu, Baogui, Zheng, Weihao, Xi, Zongzheng, Yang, Yueqian, Hu, Anwen, Zhao, Jinming, Li, Ruichen, Zhao, Yida, Zhang, Liang, Song, Yuqing, Hong, Xin, Cui, Wanqing, Hou, Danyang, Li, Yingyan, Li, Junyi, Liu, Peiyu, Gong, Zheng, Jin, Chuhao, Sun, Yuchong, Chen, Shizhe, Lu, Zhiwu, Dou, Zhicheng, Jin, Qin, Lan, Yanyan, Zhao, Wayne Xin, Song, Ruihua, and Wen, Ji-Rong

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Information Retrieval
Abstract

Multi-modal pre-training models have been intensively explored to bridge vision and language in recent years. However, most of them explicitly model the cross-modal interaction between image-text pairs, by assuming that there exists strong semantic correlation between the text and image modalities. Since this strong assumption is often invalid in real-world scenarios, we choose to implicitly model the cross-modal correlation for large-scale multi-modal pre-training, which is the focus of the Chinese project `WenLan' led by our team. Specifically, with the weak correlation assumption over image-text pairs, we propose a two-tower pre-training model called BriVL within the cross-modal contrastive learning framework. Unlike OpenAI CLIP that adopts a simple contrastive learning method, we devise a more advanced algorithm by adapting the latest method MoCo into the cross-modal scenario. By building a large queue-based dictionary, our BriVL can incorporate more negative samples in limited GPU resources. We further construct a large Chinese multi-source image-text dataset called RUC-CAS-WenLan for pre-training our BriVL model. Extensive experiments demonstrate that the pre-trained BriVL model outperforms both UNITER and OpenAI CLIP on various downstream tasks., Comment: This paper is the outcome of the Chinese multi-modal pre-training project called 'WenLan'

Published
2021

15. Song-to-Video Translation: Writing a Video from Song Lyrics Based on Multimodal Pre-training

Author

Fu, Feifei, Sun, Zelong, Yang, Guoxing, He, Xiaolong, Lu, Zhiwu, 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, Yang, Xiaochun, editor, Suhartanto, Heru, editor, Wang, Guoren, editor, Wang, Bin, editor, Jiang, Jing, editor, Li, Bing, editor, Zhu, Huaijie, editor, and Cui, Ningning, editor

Published
2023
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19. Analysis of non-linear effects of international financial systemic financial risk on macroeconomic impact

Author

Yang Fangzhou, Liu Wenshu, and Yang Guoxing

Subjects
principal component analysis, entropy method, ms-var model, tvp-var model, financial risk, macroeconomics, 91b44, Mathematics, QA1-939
Abstract

This paper first analyzes the international financial systemic risk transmission mechanism in the big data environment, constructs an international financial systemic risk index system, and measures the index based on principal component analysis. Then, the existing international financial and macroeconomic literature is sorted out, a macroeconomic resilience index system is constructed, and the index is measured using the entropy value method. Finally, MS-VAR and TVP-VAR models are constructed based on the VAR model to analyze the non-linear effects of international financial systemic financial risks on macroeconomic impacts. The results show that a shock of 1 unit of CFSI causes a positive response of MR of about 0.23 in the long run, and CFSI all produce a negative shock to MI until this negative shock reaches a maximum of -0.023 in the 5th period.

Published
2024
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27. Application of Open Panicle Traits in Improving the Filling Characteristics at the Base of Indica Rice Panicles.

Author

Yang, Guotao, Wang, Qin, Yang, Guoxing, Zhang, Guohao, Chen, Hong, Wang, Xuechun, Ma, Peng, and Hu, Yungao

Subjects
RATE setting, CELLULOSE, LIGNINS, SUNSHINE, HUMIDITY, RICE, HYBRID rice, RICE breeding
Abstract

Panicle-type structure is an important factor affecting rice yield, and an excellent panicle type has become a key indicator in rice breeding. In this study, the indica rice variety R766, which has an open panicle type, was obtained through natural mutation and hybrid selection. Through analyzing differences in panicle structure, panicle yield, and chemical composition between open panicle rice R766 and conventional panicle rice R2928, we found that the angles of the middle and lower branches in R766 were 186.99% and 135.93% greater than those in R2928, respectively. By comparing the grain-filling characteristics of different panicle positions in the two rice varieties, we found that the grain filling at the middle and lower panicle positions of R2928 was significantly lower, accompanied by an increase in the percentage of empty spikelets. However, in R766, the grain-filling rates in the middle and lower panicle positions were consistent with those in the upper panicle position, with significantly higher rates of grain filling and grain plumpness in the middle and lower panicle positions than in R2928. The empty grain rate at the lower panicle position of R766 was 15.25% lower than that of R2928, and the grain filling was 24.75% higher than that of R2928. Additionally, the variation in the 1000-grain weight of grains at different panicle positions in R766 was relatively small, with decreases of 1.55% and 0.38% in the middle and lower panicle positions, respectively, compared with the upper position, whereas R2928 showed decreases of 5.99% and 7.12% in the 1000-grain weight of grains at the middle and lower panicle positions, respectively, compared with the upper position. The cellulose content in the stems of R766 was 7.51% higher than that of R2928, with no significant difference in the cellulose content in the panicle axis and primary branches compared to R2928. The lignin content of the panicle axis in R766 was 8.03% higher than that in R2928, whereas there was no significant difference between the lignin content of the stems and primary branches. This preliminary study revealed the open panicle characteristics of R766 and the reasons for its high basal grain setting rate. This study provides a reference for promoting this open panicle-type indica rice variety to improve yield and disease resistance in environments with high humidity and low sunlight levels. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Changes of eating quality of four types of rice with different amylose content under different storage temperatures.

Author

Chen, Hong, Rao, Xinyue, Zhang, Guohao, Yang, Guotao, Yang, Guoxing, Wang, Xuechun, and Hu, Yungao

Subjects
AMYLOSE, RICE storage, RICE quality, LOW temperatures, TEMPERATURE
Abstract

Summary: The environment in which rice is stored has a big influence on rice quality. Four rice cultivars with various amylose content types were kept at low temperatures (LT, 4 °C) and room temperature (RT, 20 °C) in this study: NAC: (Low‐amylose content <2%), LAC: (low‐amylose content, about 10%), MAC: (medium‐amylose content, about 17%) and HAC: (high‐amylose content, about 25%). After storage at two temperatures and comparison to the harvest year, the amylose content of 4 types increased, and the change range of the HAC was the lowest. The gel consistency held at LT was higher than that at RT. Under LT storage, the breakdown values of MAC and HAC greatly increased (0.47%–0.65%), but NAC significantly reduced. The enthalpy of gelatinisation (▵Hg) drastically reduced (7.81%–49.10%) from the harvest year. Regeneration enthalpy increased at the grain after being sealed for a year at LT (except HAC) and reduced noticeably at RT. With the exception of ▵Hg and pasting temperature, the DSC profiles had a positive correlation with gel consistency. HPV, CPV and SBV showed a positive correlation with amylose content. As a result, the ideal storage temperature should be chosen based on the amylose type and use of the rice during storage. [ABSTRACT FROM AUTHOR]

Published
2024
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30. The oxidative coupling between benzaldehyde derivatives and phenylacetylene catalyzed by rhodium complexes via C-H bond activation

Author

Zhao Xinyi, Jia Hongge, Wang Qingji, Song Heming, Tang Yanan, Ma Liqun, Shi Yongqiang, Yang Guoxing, Wang Yazhen, Zang Yu, and Xu Shuangping

Subjects
rhodium catalyst, benzaldehyde derivatives, phenylacetylene, electronic effects, Organic chemistry, QD241-441
Abstract

This paper reports the use of rhodium (Rh) catalysts for the oxidative coupling reaction between phenylacetylene and benzaldehyde derivatives via C-H bond activation. These reactions were catalyzed by Rh(l-amino acid)(cod) (the l-amino acid is l-phenylalanine, l-valine or l-proline; cod is 1,5-cyclooctadiene) to obtain chromones in 12.7–88.3% yield. These new Rh catalysts have excellent activity for the coupling reaction between phenylacetylene and different benzaldehyde derivatives. It was found that the electronic effects of the benzaldehyde derivative substituent affected the reaction yield, which is in accordance with the proposed mechanism.

Published
2020
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37. VDT: An Empirical Study on Video Diffusion with Transformers

Author

Lu, Haoyu, Yang, Guoxing, Fei, Nanyi, Huo, Yuqi, Lu, Zhiwu, Luo, Ping, and Ding, Mingyu

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition
Abstract

This work introduces Video Diffusion Transformer (VDT), which pioneers the use of transformers in diffusion-based video generation. It features transformer blocks with modularized temporal and spatial attention modules, allowing separate optimization of each component and leveraging the rich spatial-temporal representation inherited from transformers. VDT offers several appealing benefits. 1) It excels at capturing temporal dependencies to produce temporally consistent video frames and even simulate the dynamics of 3D objects over time. 2) It enables flexible conditioning information through simple concatenation in the token space, effectively unifying video generation and prediction tasks. 3) Its modularized design facilitates a spatial-temporal decoupled training strategy, leading to improved efficiency. Extensive experiments on video generation, prediction, and dynamics modeling (i.e., physics-based QA) tasks have been conducted to demonstrate the effectiveness of VDT in various scenarios, including autonomous driving, human action, and physics-based simulation. We hope our study on the capabilities of transformer-based video diffusion in capturing accurate temporal dependencies, handling conditioning information, and achieving efficient training will benefit future research and advance the field. Codes and models are available at https://github.com/RERV/VDT.

Published
2023

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