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2,267 results on '"Zhang, Jinyu"'

1. LAC-Net: Linear-Fusion Attention-Guided Convolutional Network for Accurate Robotic Grasping Under the Occlusion

Author

Zhang, Jinyu, Gu, Yongchong, Gao, Jianxiong, Lin, Haitao, Sun, Qiang, Sun, Xinwei, Xue, Xiangyang, and Fu, Yanwei

Subjects
Computer Science - Robotics, Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper addresses the challenge of perceiving complete object shapes through visual perception. While prior studies have demonstrated encouraging outcomes in segmenting the visible parts of objects within a scene, amodal segmentation, in particular, has the potential to allow robots to infer the occluded parts of objects. To this end, this paper introduces a new framework that explores amodal segmentation for robotic grasping in cluttered scenes, thus greatly enhancing robotic grasping abilities. Initially, we use a conventional segmentation algorithm to detect the visible segments of the target object, which provides shape priors for completing the full object mask. Particularly, to explore how to utilize semantic features from RGB images and geometric information from depth images, we propose a Linear-fusion Attention-guided Convolutional Network (LAC-Net). LAC-Net utilizes the linear-fusion strategy to effectively fuse this cross-modal data, and then uses the prior visible mask as attention map to guide the network to focus on target feature locations for further complete mask recovery. Using the amodal mask of the target object provides advantages in selecting more accurate and robust grasp points compared to relying solely on the visible segments. The results on different datasets show that our method achieves state-of-the-art performance. Furthermore, the robot experiments validate the feasibility and robustness of this method in the real world. Our code and demonstrations are available on the project page: https://jrryzh.github.io/LAC-Net., Comment: accepted by IROS2024

Published
2024

6. Unbiased and Robust: External Attention-enhanced Graph Contrastive Learning for Cross-domain Sequential Recommendation

Author

Wang, Xinhua, Yue, Houping, Wang, Zizheng, Xu, Liancheng, and Zhang, Jinyu

Subjects
Computer Science - Information Retrieval
Abstract

Cross-domain sequential recommenders (CSRs) are gaining considerable research attention as they can capture user sequential preference by leveraging side information from multiple domains. However, these works typically follow an ideal setup, i.e., different domains obey similar data distribution, which ignores the bias brought by asymmetric interaction densities (a.k.a. the inter-domain density bias). Besides, the frequently adopted mechanism (e.g., the self-attention network) in sequence encoder only focuses on the interactions within a local view, which overlooks the global correlations between different training batches. To this end, we propose an External Attention-enhanced Graph Contrastive Learning framework, namely EA-GCL. Specifically, to remove the impact of the inter-domain density bias, an auxiliary Self-Supervised Learning (SSL) task is attached to the traditional graph encoder under a multi-task learning manner. To robustly capture users' behavioral patterns, we develop an external attention-based sequence encoder that contains an MLP-based memory-sharing structure. Unlike the self-attention mechanism, such a structure can effectively alleviate the bias interference from the batch-based training scheme. Extensive experiments on two real-world datasets demonstrate that EA-GCL outperforms several state-of-the-art baselines on CSR tasks. The source codes and relevant datasets are available at https://github.com/HoupingY/EA-GCL., Comment: 9 pages, 4 figures, accepted by ICDM 2023 (workshop-GML4Rec)

Published
2023
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20. Towards Lightweight Cross-domain Sequential Recommendation via External Attention-enhanced Graph Convolution Network

Author

Zhang, Jinyu, Duan, Huichuan, Guo, Lei, Xu, Liancheng, and Wang, Xinhua

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

Cross-domain Sequential Recommendation (CSR) is an emerging yet challenging task that depicts the evolution of behavior patterns for overlapped users by modeling their interactions from multiple domains. Existing studies on CSR mainly focus on using composite or in-depth structures that achieve significant improvement in accuracy but bring a huge burden to the model training. Moreover, to learn the user-specific sequence representations, existing works usually adopt the global relevance weighting strategy (e.g., self-attention mechanism), which has quadratic computational complexity. In this work, we introduce a lightweight external attention-enhanced GCN-based framework to solve the above challenges, namely LEA-GCN. Specifically, by only keeping the neighborhood aggregation component and using the Single-Layer Aggregating Protocol (SLAP), our lightweight GCN encoder performs more efficiently to capture the collaborative filtering signals of the items from both domains. To further alleviate the framework structure and aggregate the user-specific sequential pattern, we devise a novel dual-channel External Attention (EA) component, which calculates the correlation among all items via a lightweight linear structure. Extensive experiments are conducted on two real-world datasets, demonstrating that LEA-GCN requires a smaller volume and less training time without affecting the accuracy compared with several state-of-the-art methods., Comment: 16 pages, 4 figures, conference paper, accepted by DASFAA 2023

Published
2023
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23. Reinforcement Learning-enhanced Shared-account Cross-domain Sequential Recommendation

Author

Guo, Lei, Zhang, Jinyu, Chen, Tong, Wang, Xinhua, and Yin, Hongzhi

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

Shared-account Cross-domain Sequential Recommendation (SCSR) is an emerging yet challenging task that simultaneously considers the shared-account and cross-domain characteristics in the sequential recommendation. Existing works on SCSR are mainly based on Recurrent Neural Network (RNN) and Graph Neural Network (GNN) but they ignore the fact that although multiple users share a single account, it is mainly occupied by one user at a time. This observation motivates us to learn a more accurate user-specific account representation by attentively focusing on its recent behaviors. Furthermore, though existing works endow lower weights to irrelevant interactions, they may still dilute the domain information and impede the cross-domain recommendation. To address the above issues, we propose a reinforcement learning-based solution, namely RL-ISN, which consists of a basic cross-domain recommender and a reinforcement learning-based domain filter. Specifically, to model the account representation in the shared-account scenario, the basic recommender first clusters users' mixed behaviors as latent users, and then leverages an attention model over them to conduct user identification. To reduce the impact of irrelevant domain information, we formulate the domain filter as a hierarchical reinforcement learning task, where a high-level task is utilized to decide whether to revise the whole transferred sequence or not, and if it does, a low-level task is further performed to determine whether to remove each interaction within it or not. To evaluate the performance of our solution, we conduct extensive experiments on two real-world datasets, and the experimental results demonstrate the superiority of our RL-ISN method compared with the state-of-the-art recommendation methods., Comment: 14 pages, 5 figures

Published
2022
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24. Time Interval-enhanced Graph Neural Network for Shared-account Cross-domain Sequential Recommendation

Author

Guo, Lei, Zhang, Jinyu, Tang, Li, Chen, Tong, Zhu, Lei, and Yin, Hongzhi

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

Shared-account Cross-domain Sequential Recommendation (SCSR) task aims to recommend the next item via leveraging the mixed user behaviors in multiple domains. It is gaining immense research attention as more and more users tend to sign up on different platforms and share accounts with others to access domain-specific services. Existing works on SCSR mainly rely on mining sequential patterns via Recurrent Neural Network (RNN)-based models, which suffer from the following limitations: 1) RNN-based methods overwhelmingly target discovering sequential dependencies in single-user behaviors. They are not expressive enough to capture the relationships among multiple entities in SCSR. 2) All existing methods bridge two domains via knowledge transfer in the latent space, and ignore the explicit cross-domain graph structure. 3) None existing studies consider the time interval information among items, which is essential in the sequential recommendation for characterizing different items and learning discriminative representations for them. In this work, we propose a new graph-based solution, namely TiDA-GCN, to address the above challenges. Specifically, we first link users and items in each domain as a graph. Then, we devise a domain-aware graph convolution network to learn userspecific node representations. To fully account for users' domainspecific preferences on items, two effective attention mechanisms are further developed to selectively guide the message passing process. Moreover, to further enhance item- and account-level representation learning, we incorporate the time interval into the message passing, and design an account-aware self-attention module for learning items' interactive characteristics. Experiments demonstrate the superiority of our proposed method from various aspects., Comment: 15 pages, 6 figures

Published
2022
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28. FuDFEND: Fuzzy-domain for Multi-domain Fake News Detection

Author

Liang, Chaoqi, Zhang, Yu, Li, Xinyuan, Zhang, Jinyu, and Yu, Yongqi

Subjects
Computer Science - Social and Information Networks
Abstract

On the Internet, fake news exists in various domain (e.g., education, health). Since news in different domains has different features, researchers have be-gun to use single domain label for fake news detection recently. This emerg-ing field is called multi-domain fake news detection (MFND). Existing works show that using single domain label can improve the accuracy of fake news detection model. However, there are two problems in previous works. Firstly, they ignore that a piece of news may have features from different domains. The single domain label focuses only on the features of the news on particu-lar domain. This may reduce the performance of the model. Secondly, their model cannot transfer the domain knowledge to the other dataset without domain label. In this paper, we propose a novel model, FuDFEND, which solves the limitations above by introducing the fuzzy inference mechanism. Specifically, FuDFEND utilizes a neural network to fit the fuzzy inference process which constructs a fuzzy domain label for each news item. Then, the feature extraction module uses the fuzzy domain label to extract the multi-domain features of the news and obtain the total feature representation. Fi-nally, the discriminator module uses the total feature representation to dis-criminate whether the news item is fake news. The results on the Weibo21 show that our model works better than the model using only single domain label. In addition, our model transfers domain knowledge better to Thu da-taset which has no domain label.

Published
2022
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38. Hyperactive Behavior Screening and Its Influencing Factors in Preschool Children Based on a Computer Cloud Platform

Author

YIN Xiaona, SHEN Longbin, WANG Nan, ZHANG Jinyu, WU Jianbo, QIU Shuangyan, LEI Haiyan, and CHEN Zhuoming

Subjects
hyperactive behavior, preschool children, early screening, active health, cloud platform, Medicine
Abstract

ObjectiveTo investigate the current situation of hyperactive behavior and related influencing factors in preschool children aged 4-5 years in Longhua District, Shenzhen, based on the intelligent active screening of computer cloud platform, with a view to realizing early screening of hyperactive behavior in preschool children.MethodsUsing the computer platform of Jingyun, a survey was conducted on 59,564 preschool children, aged 4-5 years, from 239 kindergartens in 6 neighborhoods in Longhua District, Shenzhen, who were just enrolled in the fall of 2019. A total of 59,114 valid questionnaires were obtained. The innovation of this experiment was to place the questionnaire collection scale, which has been proved to be effective and feasible by experts in the field, on the computer cloud platform to realize intelligent data collection and intelligent analysis, so as to facilitate early screening and intelligent judgment. The general demographic data of the respondents were collected using the questionnaire prepared and proved by experts. The parent symptom questionnaire (PSQ) was used to assess the hyperactive behavior of the surveyed preschool children. The data collected were used to analyze the current status of the children's hyperactive behavior and related influencing factors.ResultsThe detection rate of hyperactive behavior among preschool children aged 4-5 years in 239 kindergartens in 6 neighborhoods of Longhua District, Shenzhen was 4.86%. Children's sex, parents' marital status, length of residence in Shenzhen, neighborhood environment and transferring to another school were all associated with hyperactive behavior in preschool children (PCI 0.798-0.975), and girls were more visibly protected than boys. The marital status of the children's parents as widowed (95% CI 3.154-19.646) and unmarried (95% CI 1.027-5.268), and the children's kindergartens located in Longhua Street (95% CI 1.138-2.508), in Dalang Street (95% CI 1.384-2.971), and in Guanlan Street (95% CI 1.470-3.509) were risk factors for hyperactive behavior in preschool children.ConclusionThe active screening through the computer cloud platform can easily and effectively screen preschool children with hyperactive behavior, as well as analyze and obtain the relevant protective or risk factors affecting hyperactive behavior in preschool children, which is recommended for early screening in a large area.

Published
2024
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44. A Bibliometric Analysis of the Use of the Metaverse in Education over Three Decades

Author

Chen, Wentao, Zhang, Jinyu, and Yu, Zhonggen

Abstract

Since Facebook announced itself as Meta, the metaverse has been popular with educationalists. However, scanty studies have bibliographically analyzed the use of the metaverse in education. This study complements the missing link in the literature by bibliometrically analyzing the research into the use of the metaverse in education using both VOSviewer and CitNetExplorer. The study identified the top authors, organizations, countries, keywords, documents, sources, the research trends, and challenges of the metaverse used in education, together with the effects of the metaverse on learning environments, interactions, educational outcomes, and learning attitudes. This study paves a solid ground and provides a meaningful reference for future research in the use of the metaverse in education. Implications for future research were also provided.

Published
2023
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