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341 results on '"Liu, XiangYan"'

1. CodexGraph: Bridging Large Language Models and Code Repositories via Code Graph Databases

Author

Liu, Xiangyan, Lan, Bo, Hu, Zhiyuan, Liu, Yang, Zhang, Zhicheng, Wang, Fei, Shieh, Michael, and Zhou, Wenmeng

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

Large Language Models (LLMs) excel in stand-alone code tasks like HumanEval and MBPP, but struggle with handling entire code repositories. This challenge has prompted research on enhancing LLM-codebase interaction at a repository scale. Current solutions rely on similarity-based retrieval or manual tools and APIs, each with notable drawbacks. Similarity-based retrieval often has low recall in complex tasks, while manual tools and APIs are typically task-specific and require expert knowledge, reducing their generalizability across diverse code tasks and real-world applications. To mitigate these limitations, we introduce CodexGraph, a system that integrates LLM agents with graph database interfaces extracted from code repositories. By leveraging the structural properties of graph databases and the flexibility of the graph query language, CodexGraph enables the LLM agent to construct and execute queries, allowing for precise, code structure-aware context retrieval and code navigation. We assess CodexGraph using three benchmarks: CrossCodeEval, SWE-bench, and EvoCodeBench. Additionally, we develop five real-world coding applications. With a unified graph database schema, CodexGraph demonstrates competitive performance and potential in both academic and real-world environments, showcasing its versatility and efficacy in software engineering. Our application demo: https://github.com/modelscope/modelscope-agent/tree/master/apps/codexgraph_agent., Comment: work in progress

Published
2024

2. Described Spatial-Temporal Video Detection

Author

Ji, Wei, Liu, Xiangyan, Sun, Yingfei, Deng, Jiajun, Qin, You, Nuwanna, Ammar, Qiu, Mengyao, Wei, Lina, and Zimmermann, Roger

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Detecting visual content on language expression has become an emerging topic in the community. However, in the video domain, the existing setting, i.e., spatial-temporal video grounding (STVG), is formulated to only detect one pre-existing object in each frame, ignoring the fact that language descriptions can involve none or multiple entities within a video. In this work, we advance the STVG to a more practical setting called described spatial-temporal video detection (DSTVD) by overcoming the above limitation. To facilitate the exploration of DSTVD, we first introduce a new benchmark, namely DVD-ST. Notably, DVD-ST supports grounding from none to many objects onto the video in response to queries and encompasses a diverse range of over 150 entities, including appearance, actions, locations, and interactions. The extensive breadth and diversity of the DVD-ST dataset make it an exemplary testbed for the investigation of DSTVD. In addition to the new benchmark, we further present two baseline methods for our proposed DSTVD task by extending two representative STVG models, i.e., TubeDETR, and STCAT. These extended models capitalize on tubelet queries to localize and track referred objects across the video sequence. Besides, we adjust the training objectives of these models to optimize spatial and temporal localization accuracy and multi-class classification capabilities. Furthermore, we benchmark the baselines on the introduced DVD-ST dataset and conduct extensive experimental analysis to guide future investigation. Our code and benchmark will be publicly available.

Published
2024

3. An Empirical Study of Training ID-Agnostic Multi-modal Sequential Recommenders

Author

Li, Youhua, Du, Hanwen, Ni, Yongxin, He, Yuanqi, Fu, Junchen, Liu, Xiangyan, and Guo, Qi

Subjects
Computer Science - Information Retrieval
Abstract

Sequential Recommendation (SR) aims to predict future user-item interactions based on historical interactions. While many SR approaches concentrate on user IDs and item IDs, the human perception of the world through multi-modal signals, like text and images, has inspired researchers to delve into constructing SR from multi-modal information without using IDs. However, the complexity of multi-modal learning manifests in diverse feature extractors, fusion methods, and pre-trained models. Consequently, designing a simple and universal \textbf{M}ulti-\textbf{M}odal \textbf{S}equential \textbf{R}ecommendation (\textbf{MMSR}) framework remains a formidable challenge. We systematically summarize the existing multi-modal related SR methods and distill the essence into four core components: visual encoder, text encoder, multimodal fusion module, and sequential architecture. Along these dimensions, we dissect the model designs, and answer the following sub-questions: First, we explore how to construct MMSR from scratch, ensuring its performance either on par with or exceeds existing SR methods without complex techniques. Second, we examine if MMSR can benefit from existing multi-modal pre-training paradigms. Third, we assess MMSR's capability in tackling common challenges like cold start and domain transferring. Our experiment results across four real-world recommendation scenarios demonstrate the great potential ID-agnostic multi-modal sequential recommendation. Our framework can be found at: https://github.com/MMSR23/MMSR., Comment: An Empirical Study of Training ID-Agnostic Multi-modal Sequential Recommenders

Published
2024

4. Towards Robust Multi-Modal Reasoning via Model Selection

Author

Liu, Xiangyan, Li, Rongxue, Ji, Wei, and Lin, Tao

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

The reasoning capabilities of LLM (Large Language Model) are widely acknowledged in recent research, inspiring studies on tool learning and autonomous agents. LLM serves as the "brain" of the agent, orchestrating multiple tools for collaborative multi-step task solving. Unlike methods invoking tools like calculators or weather APIs for straightforward tasks, multi-modal agents excel by integrating diverse AI models for complex challenges. However, current multi-modal agents neglect the significance of model selection: they primarily focus on the planning and execution phases, and will only invoke predefined task-specific models for each subtask, making the execution fragile. Meanwhile, other traditional model selection methods are either incompatible with or suboptimal for the multi-modal agent scenarios, due to ignorance of dependencies among subtasks arising by multi-step reasoning. To this end, we identify the key challenges therein and propose the $\textit{M}^3$ framework as a plug-in with negligible runtime overhead at test-time. This framework improves model selection and bolsters the robustness of multi-modal agents in multi-step reasoning. In the absence of suitable benchmarks, we create MS-GQA, a new dataset specifically designed to investigate the model selection challenge in multi-modal agents. Our experiments reveal that our framework enables dynamic model selection, considering both user inputs and subtask dependencies, thereby robustifying the overall reasoning process. Our code and benchmark: https://github.com/LINs-lab/M3., Comment: Accepted by ICLR 2024

Published
2023

5. Towards Complex-query Referring Image Segmentation: A Novel Benchmark

Author

Ji, Wei, Li, Li, Fei, Hao, Liu, Xiangyan, Yang, Xun, Li, Juncheng, and Zimmermann, Roger

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Referring Image Understanding (RIS) has been extensively studied over the past decade, leading to the development of advanced algorithms. However, there has been a lack of research investigating how existing algorithms should be benchmarked with complex language queries, which include more informative descriptions of surrounding objects and backgrounds (\eg \textit{"the black car."} vs. \textit{"the black car is parking on the road and beside the bus."}). Given the significant improvement in the semantic understanding capability of large pre-trained models, it is crucial to take a step further in RIS by incorporating complex language that resembles real-world applications. To close this gap, building upon the existing RefCOCO and Visual Genome datasets, we propose a new RIS benchmark with complex queries, namely \textbf{RIS-CQ}. The RIS-CQ dataset is of high quality and large scale, which challenges the existing RIS with enriched, specific and informative queries, and enables a more realistic scenario of RIS research. Besides, we present a nichetargeting method to better task the RIS-CQ, called dual-modality graph alignment model (\textbf{\textsc{DuMoGa}}), which outperforms a series of RIS methods.

Published
2023

6. A Content-Driven Micro-Video Recommendation Dataset at Scale

Author

Ni, Yongxin, Cheng, Yu, Liu, Xiangyan, Fu, Junchen, Li, Youhua, He, Xiangnan, Zhang, Yongfeng, and Yuan, Fajie

Subjects
Computer Science - Information Retrieval
Abstract

Micro-videos have recently gained immense popularity, sparking critical research in micro-video recommendation with significant implications for the entertainment, advertising, and e-commerce industries. However, the lack of large-scale public micro-video datasets poses a major challenge for developing effective recommender systems. To address this challenge, we introduce a very large micro-video recommendation dataset, named "MicroLens", consisting of one billion user-item interaction behaviors, 34 million users, and one million micro-videos. This dataset also contains various raw modality information about videos, including titles, cover images, audio, and full-length videos. MicroLens serves as a benchmark for content-driven micro-video recommendation, enabling researchers to utilize various modalities of video information for recommendation, rather than relying solely on item IDs or off-the-shelf video features extracted from a pre-trained network. Our benchmarking of multiple recommender models and video encoders on MicroLens has yielded valuable insights into the performance of micro-video recommendation. We believe that this dataset will not only benefit the recommender system community but also promote the development of the video understanding field. Our datasets and code are available at https://github.com/westlake-repl/MicroLens.

Published
2023

7. Online Distillation-enhanced Multi-modal Transformer for Sequential Recommendation

Author

Ji, Wei, Liu, Xiangyan, Zhang, An, Wei, Yinwei, Ni, Yongxin, and Wang, Xiang

Subjects
Computer Science - Information Retrieval
Abstract

Multi-modal recommendation systems, which integrate diverse types of information, have gained widespread attention in recent years. However, compared to traditional collaborative filtering-based multi-modal recommendation systems, research on multi-modal sequential recommendation is still in its nascent stages. Unlike traditional sequential recommendation models that solely rely on item identifier (ID) information and focus on network structure design, multi-modal recommendation models need to emphasize item representation learning and the fusion of heterogeneous data sources. This paper investigates the impact of item representation learning on downstream recommendation tasks and examines the disparities in information fusion at different stages. Empirical experiments are conducted to demonstrate the need to design a framework suitable for collaborative learning and fusion of diverse information. Based on this, we propose a new model-agnostic framework for multi-modal sequential recommendation tasks, called Online Distillation-enhanced Multi-modal Transformer (ODMT), to enhance feature interaction and mutual learning among multi-source input (ID, text, and image), while avoiding conflicts among different features during training, thereby improving recommendation accuracy. To be specific, we first introduce an ID-aware Multi-modal Transformer module in the item representation learning stage to facilitate information interaction among different features. Secondly, we employ an online distillation training strategy in the prediction optimization stage to make multi-source data learn from each other and improve prediction robustness. Experimental results on a stream media recommendation dataset and three e-commerce recommendation datasets demonstrate the effectiveness of the proposed two modules, which is approximately 10% improvement in performance compared to baseline models., Comment: 11 pages, 7 figures, accepted in ACM MM 2023

Published
2023

17. "It keeps us in solidarity": embodied narrative in Chinese teacher education.

Author

Liu, Xiangyan, Li, Shuqin, and Yang, Sisi

Subjects
TEACHER education, COOPERATIVE inquiry, PRIMARY school teachers, EDUCATORS
Abstract

This paper presents a performance text, crafted by university researchers and teachers from a primary school in China. The "embodied narrative" is explored as theory, method, practice, event, and action within this collaborative inquiry. Through vignettes, we delve into the positionalities of teachers and teacher educators, highlighting the fluidity between participant, researcher, and performer roles. Our endeavor challenges the dominance of textualism in educational research, emphasizing "culture as performance" and "practice as research." This embodied narrative approach allows teachers and teacher educators to bridge theoretical and practical divides, merge personal and public realms, and take proactive actions. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Bridging Home and Host Country: Educational Predispositions of Chinese and Indian Recent Immigrant Families

Author

Gordon, June A. and Liu, Xiangyan

Abstract

This research focuses on the predispositions that recent Chinese and Indian immigrant families bring with them to the United States and how these are reinforced by the communities in which they locate. The findings draw from 144 interviews in California. Three themes dominate: positioning through schooling, transnational family, and extended community and education. Our perspective joins Asian diaspora studies with cultural capital and social structural theories, enabling a more nuanced understanding of ways in which schooling in the home country informs how children are positioned in the American schooling system.

Published
2015

23. Preparation for Transnationalism: Changes in China's Top Secondary Schools

Author

Gordon, June A. and Liu, Xiangyan

Abstract

This article argues that new international programs within public secondary schools in China represent a vigorous and legitimatized approach to meeting the demands of newly affluent Chinese families for pre-collegiate education that equals the best international standards and constitutes preparation for higher education at the leading universities of the U.S., U.K., Australia, and beyond. From a transnational perspective, it offers insights into the changes that have taken place within China over the last decade as well as provides an overview of some of the variation in educational programs and practices as they relate to the internationalization of secondary education in China.

Published
2014

32. Standardisation is the key to the sustained, rapid and healthy development of stem cell‐based therapy.

Author

Zhang, Jing, Suo, Moran, Wang, Jinzuo, Liu, Xin, Huang, Huagui, Wang, Kaizhong, Liu, Xiangyan, Sun, Tianze, Li, Zhonghai, and Liu, Jing

Subjects
LITERATURE reviews, INTERNATIONAL organization, CLINICAL medicine, INTERNATIONAL agencies, STEM cells
Abstract

Background: Stem cell‐based therapy (SCT) is an important component of regenerative therapy that brings hope to many patients. After decades of development, SCT has made significant progress in the research of various diseases, and the market size has also expanded significantly. The transition of SCT from small‐scale, customized experiments to routine clinical practice requires the assistance of standards. Many countries and international organizations around the world have developed corresponding SCT standards, which have effectively promoted the further development of the SCT industry. Methods: We conducted a comprehensive literature review to introduce the clinical application progress of SCT and focus on the development status of SCT standardization. Results: We first briefly introduced the types and characteristics of stem cells, and summarized the current clinical application and market development of SCT. Subsequently, we focused on the development status of SCT‐related standards as of now from three levels: the International Organization for Standardization (ISO), important international organizations, and national organizations. Finally, we provided perspectives and conclusions on the significance and challenges of SCT standardization. Conclusions: Standardization plays an important role in the sustained, rapid and healthy development of SCT. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Redefining 'Immigrants' through Diaspora: Educational Experience of 1.5-Generation Chinese Youth in Cupertino

Author

Liu, Xiangyan

Abstract

Through the intersection of diaspora and immigrant education, this article investigates how Chinese youth perceive their experience of being immigrant and 1.5-generation in and out of school. The fieldwork was conducted in Cupertino, California, in 2013-2014. In total, 11 students were chosen to participate in the research. It combines an ethnographic approach with narrative inquiry. The findings discuss how the youth's multiple identities were an interplay with their cultural imagination and practices on two various levels: their concept of "home" and their longing for flexible citizenship. This article suggests the framework of diaspora to capture the process of immigration not as an uprooted directional trajectory but rather a complex space where immigrants from a range of backgrounds come to forge their multiple identities in a globalized context. Perspectives from the youth will enable us to critically redefine the term "immigrant" in the context of transnationalism and globalization.

Published
2017
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39. MUC1 promotes lymph node metastasis in esophageal squamous cell carcinoma by downregulating DNAJB6 expression.

Author

Ma, Guanqiang, Liu, Xiangyan, and Shi, Mo

Subjects
LYMPHATIC metastasis, SQUAMOUS cell carcinoma, WESTERN immunoblotting
Abstract

Background: Aberrant expression of MUC1 correlates with the progression of esophageal squamous cell carcinoma (ESCC), this study aimed to explore the effect of targeting MUC1 by Go‐203 on malignant behavior of ESCC and the underlying mechanism. Methods and Results: IHC was used to examine the expression of MUC1 and DNAJB6 in ESCC samples. qRT–PCR and western blotting were used to examine the expression of MUC1 and DNAJB6 in ESCC cell lines. CCK8, wound healing, and transwell assays were used to determine the effect of regulating MUC1/DNAJB6 on the proliferation, migration, and invasion of ESCC cells. The effect of overexpressing/targeting MUC1 on the activation of the AKT/HSF‐1 pathway was determined by western blotting. A negative correlation was confirmed between the expression of DNAJB6 and MUC1 in ESCC tissue samples by IHC, and high expression of MUC1 and low expression of DNAJB6 correlated with lymph node metastasis in ESCC patients. Overexpressing MUC1 downregulated the expression of DNAJB6, promoted ESCC proliferation, invasion, migration and activated the AKT pathway, while targeting MUC1 suppressed proliferation, invasion, migration, and the AKT pathway and up‐regulated DNAJB6 expression in vitro. Moreover, MUC1 increased the phosphorylation of HSF‐1 via the AKT pathway, and inhibiting AKT‐HSF‐1 increased the expression of DNAJB6 in vitro. Conclusions: This study indicated that MUC1 could promote tumorigenesis and metastasis in ESCC by downregulating DNAJB6 expression through AKT‐HSF‐1 pathway. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Joint AP‐user association and caching strategy for delivery delay minimization in cell‐free massive MIMO systems.

Author

Wang, Rui, Shen, Min, He, Yun, and Liu, Xiangyan

Subjects
MIMO systems, NP-hard problems, NONLINEAR programming, GENETIC algorithms, COMPUTATIONAL complexity, INTEGER programming, ARTIFICIAL pancreases
Abstract

Edge caching at access points (APs) is a promising approach to alleviate the fronthaul burden and reduce user‐perceived delay. However, the edge caching placement is still challenging considering the coupling between caching and AP‐user association, limited fronthaul capacity, and multi‐AP deployment in the cell‐free (CF) massive MIMO systems. To this end, the authors establish a framework for the joint problem of AP‐user association and caching to minimize the content delivery delay which considers both cooperation delivery delay and radio access delay. It is an integer nonlinear programming problem and NP‐hard. The optimization problem is first decomposed into an AP‐user association sub‐problem and a caching placement sub‐problem to address this problem. A two‐stage matching algorithm is further proposed to achieve AP‐user association and a modified genetic algorithm to determine caching placement. A computationally efficient iterative algorithm is developed to solve the joint optimization problem. Finally, the global convergence and computational complexity of the proposed strategy are analyzed theoretically. Simulation results reveal that the proposed strategy can achieve better delivery delay performance than benchmark schemes. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Remote Sensing Images Destriping via Nonconvex Regularization and Fast Regional Decomposition

Author

Song, Qiong, Huang, Zhenghua, Jiang, Wenshuai, Bai, Kun, Liu, Xiangyan, and Hu, Jianping

Abstract

Remote sensing images can accurately display the electromagnetic attribute distribution of various ground objects and can be used in many applications. Nevertheless, stripe noise frequently degrades the quality of the captured images. Most current destriping studies are capable of removing the regular stripe noise. However, their outputs often produce a stripe residual or oversmoothing effect when a complex stripe noise exists. To overcome this limitation, in this article, we propose a variational destriping model based on nonconvex regularization and variable weights. First, our model constrains the stripe sparsity using the normalized $\epsilon $ -penalty function and converts it into weighted $\ell _{1}$ norm by $\ell _{1}$ majorization method. Second, unlike previous models that use scalar smoothing weights to control the output smoothness, we propose to design adaptive vector weights to constrain the smoothness. Moreover, the proposed model introduces the region weight to deal with the extreme regions. In view of the region decomposition technique, we transform our optimization model into a series of 1-D weighted $\ell _{1}$ problems in different directions with a linear time solver. Then, an improved alternating direction method is employed to provide fast convergence. The experimental results show that our method achieves a better performance on image detail preservation, complex stripe removal, and a faster convergence than the state-of-the-art methods.

Published
2024
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