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1. New insight into quantifying vacancy distribution in self-ion irradiated tungsten: a combined experimental and computational study

Author

Hu, Zhiwei, Wu, Jintong, Jomard, François, Granberg, Fredric, and Barthe, Marie-France

Subjects
Condensed Matter - Materials Science
Abstract

In this work, we propose a new approach based on positron annihilation spectroscopy to estimate the concentration of vacancy-type defects induced by self-ion irradiation in tungsten at room temperature, 500, and 700{\deg}C. Using experimental and Two-component density functional theory calculated annihilation characteristics of various vacancy clusters V$_{n}$ ($n$=1-65) and a positron trapping model associated with the simulated annealing algorithm, vacancy cluster concentration distribution could be extracted from experimental data. The method was validated against simulation results for room-temperature irradiation and transmission electron microscopy observations for higher temperatures. After irradiation at 500 and 700{\deg}C, small clusters (<20 vacancies, ~0.85 nm) undetectable by TEM were unveiled, with concentrations exceeding 10$^{25}$ m$^{-3}$, significantly higher than the concentration of TEM-visible defects (10$^{24}$ m$^{-3}$). Moreover, incorporating an oxygen-vacancy complex is deemed necessary to accurately replicate experimental data in samples subjected to high-temperature irradiation.

Published
2024

2. High-dose long-time defect evolution in tungsten studied by atomistically informed Object Kinetic Monte Carlo simulations

Author

Wu, Jintong, Balbuena, Juan-Pablo, Hu, Zhiwei, Jantunen, Ville, Barthe, Marie-France, Caturla, Maria Jose, and Granberg, Fredric

Subjects
Condensed Matter - Materials Science
Abstract

Irradiation of materials in nuclear test reactors and power plants is known to alter the properties of the material. The irradiation event happening at pico- or nanosecond time scales are affecting the evolution and properties of the material on macroscopic timescales. Classical Molecular Dynamics simulations, which can capture the cascade event, are typically limited to nanosecond time scales, resulting in high dose rates. To achieve experimental dose rates, larger-scale models like Object Kinetic Monte Carlo are used, while they lack atomistic detail. The exact evolution of cascades in the vicinity of pre-existing defects is known to affect the defects formed, and the structure and morphology of the defects produced are crucial to know for determining macroscopic material behavior. Here we introduce a novel approach to integrate full Molecular Dynamics-based cascades into Object Kinetic Monte Carlo to achieve accurate dose rates, with the atomistic level accuracy of cascade overlap in tungsten. Our study reveals that incorporating full cascades significantly influences defect concentration levels. Not only is the concentration affected, but also the cluster statistics. We observe both that the full cascade can promote vacancy clustering at low temperatures and it can split existing voids at higher temperatures. These effects are missing in conventional Object Kinetic Monte Carlo simulations. This can be especially important in more complex materials, where many cascade-overlap effects are present.

Published
2024

3. COTET: Cross-view Optimal Transport for Knowledge Graph Entity Typing

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Ru, and Pan, Jeff Z.

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

Knowledge graph entity typing (KGET) aims to infer missing entity type instances in knowledge graphs. Previous research has predominantly centered around leveraging contextual information associated with entities, which provides valuable clues for inference. However, they have long ignored the dual nature of information inherent in entities, encompassing both high-level coarse-grained cluster knowledge and fine-grained type knowledge. This paper introduces Cross-view Optimal Transport for knowledge graph Entity Typing (COTET), a method that effectively incorporates the information on how types are clustered into the representation of entities and types. COTET comprises three modules: i) Multi-view Generation and Encoder, which captures structured knowledge at different levels of granularity through entity-type, entity-cluster, and type-cluster-type perspectives; ii) Cross-view Optimal Transport, transporting view-specific embeddings to a unified space by minimizing the Wasserstein distance from a distributional alignment perspective; iii) Pooling-based Entity Typing Prediction, employing a mixture pooling mechanism to aggregate prediction scores from diverse neighbors of an entity. Additionally, we introduce a distribution-based loss function to mitigate the occurrence of false negatives during training. Extensive experiments demonstrate the effectiveness of COTET when compared to existing baselines.

Published
2024

4. Leveraging Intra-modal and Inter-modal Interaction for Multi-Modal Entity Alignment

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Ru, and Pan, Jeff Z.

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

Multi-modal entity alignment (MMEA) aims to identify equivalent entity pairs across different multi-modal knowledge graphs (MMKGs). Existing approaches focus on how to better encode and aggregate information from different modalities. However, it is not trivial to leverage multi-modal knowledge in entity alignment due to the modal heterogeneity. In this paper, we propose a Multi-Grained Interaction framework for Multi-Modal Entity Alignment (MIMEA), which effectively realizes multi-granular interaction within the same modality or between different modalities. MIMEA is composed of four modules: i) a Multi-modal Knowledge Embedding module, which extracts modality-specific representations with multiple individual encoders; ii) a Probability-guided Modal Fusion module, which employs a probability guided approach to integrate uni-modal representations into joint-modal embeddings, while considering the interaction between uni-modal representations; iii) an Optimal Transport Modal Alignment module, which introduces an optimal transport mechanism to encourage the interaction between uni-modal and joint-modal embeddings; iv) a Modal-adaptive Contrastive Learning module, which distinguishes the embeddings of equivalent entities from those of non-equivalent ones, for each modality. Extensive experiments conducted on two real-world datasets demonstrate the strong performance of MIMEA compared to the SoTA. Datasets and code have been submitted as supplementary materials.

Published
2024

5. HyperMono: A Monotonicity-aware Approach to Hyper-Relational Knowledge Representation

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Ru, and Pan, Jeff Z.

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

In a hyper-relational knowledge graph (HKG), each fact is composed of a main triple associated with attribute-value qualifiers, which express additional factual knowledge. The hyper-relational knowledge graph completion (HKGC) task aims at inferring plausible missing links in a HKG. Most existing approaches to HKGC focus on enhancing the communication between qualifier pairs and main triples, while overlooking two important properties that emerge from the monotonicity of the hyper-relational graphs representation regime. Stage Reasoning allows for a two-step reasoning process, facilitating the integration of coarse-grained inference results derived solely from main triples and fine-grained inference results obtained from hyper-relational facts with qualifiers. In the initial stage, coarse-grained results provide an upper bound for correct predictions, which are subsequently refined in the fine-grained step. More generally, Qualifier Monotonicity implies that by attaching more qualifier pairs to a main triple, we may only narrow down the answer set, but never enlarge it. This paper proposes the HyperMono model for hyper-relational knowledge graph completion, which realizes stage reasoning and qualifier monotonicity. To implement qualifier monotonicity HyperMono resorts to cone embeddings. Experiments on three real-world datasets with three different scenario conditions demonstrate the strong performance of HyperMono when compared to the SoTA.

Published
2024

11. Continuous field tracking with machine learning and steady state spin squeezing

Author

Duan, Junlei, Hu, Zhiwei, Lu, Xingda, Xiao, Liantuan, Jia, Suotang, Mølmer, Klaus, and Xiao, Yanhong

Subjects
Quantum Physics
Abstract

Entanglement plays a crucial role in proposals for quantum metrology, yet demonstrating quantum enhancement in sensing with sustained spin entanglement remains a challenging endeavor. Here, we combine optical pumping and continuous quantum nondemolition measurements to achieve a sustained spin squeezed state with $\bm{4 \times 10^{10}}$ hot atoms. A metrologically relevant steady state squeezing of $\bm{-3.23 \pm 0.24}$ dB using prediction and retrodiction is maintained for about one day. We employ the system to track different types of continuous time-fluctuating magnetic fields, where we construct deep learning models to decode the measurement records from the optical signals. Quantum enhancement due to the steady spin squeezing is verified in our atomic magnetometer. These results represent important progress towards applying long-lived quantum entanglement resources in realistic settings.

Published
2024

12. Multi-view Contrastive Learning for Entity Typing over Knowledge Graphs

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Ru, and Pan, Jeff Z.

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

Knowledge graph entity typing (KGET) aims at inferring plausible types of entities in knowledge graphs. Existing approaches to KGET focus on how to better encode the knowledge provided by the neighbors and types of an entity into its representation. However, they ignore the semantic knowledge provided by the way in which types can be clustered together. In this paper, we propose a novel method called Multi-view Contrastive Learning for knowledge graph Entity Typing (MCLET), which effectively encodes the coarse-grained knowledge provided by clusters into entity and type embeddings. MCLET is composed of three modules: i) Multi-view Generation and Encoder module, which encodes structured information from entity-type, entity-cluster and cluster-type views; ii) Cross-view Contrastive Learning module, which encourages different views to collaboratively improve view-specific representations of entities and types; iii) Entity Typing Prediction module, which integrates multi-head attention and a Mixture-of-Experts strategy to infer missing entity types. Extensive experiments show the strong performance of MCLET compared to the state-of-the-art, Comment: Accepted at EMNLP 2023 Main

Published
2023

13. MLPST: MLP is All You Need for Spatio-Temporal Prediction

Author

Zhang, Zijian, Huang, Ze, Hu, Zhiwei, Zhao, Xiangyu, Wang, Wanyu, Liu, Zitao, Zhang, Junbo, Qin, S. Joe, and Zhao, Hongwei

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

Traffic prediction is a typical spatio-temporal data mining task and has great significance to the public transportation system. Considering the demand for its grand application, we recognize key factors for an ideal spatio-temporal prediction method: efficient, lightweight, and effective. However, the current deep model-based spatio-temporal prediction solutions generally own intricate architectures with cumbersome optimization, which can hardly meet these expectations. To accomplish the above goals, we propose an intuitive and novel framework, MLPST, a pure multi-layer perceptron architecture for traffic prediction. Specifically, we first capture spatial relationships from both local and global receptive fields. Then, temporal dependencies in different intervals are comprehensively considered. Through compact and swift MLP processing, MLPST can well capture the spatial and temporal dependencies while requiring only linear computational complexity, as well as model parameters that are more than an order of magnitude lower than baselines. Extensive experiments validated the superior effectiveness and efficiency of MLPST against advanced baselines, and among models with optimal accuracy, MLPST achieves the best time and space efficiency.

Published
2023

14. Spectroscopic evidence of Kondo-induced quasi-quartet in CeRh$_2$As$_2$

Author

Christovam, Denise S., Ferreira-Carvalho, Miguel, Marino, Andrea, Sundermann, Martin, Takegami, Daisuke, Melendez-Sans, Anna, Tsuei, Ku Ding, Hu, Zhiwei, Roessler, Sahana, Valvidares, Manuel, Haverkort, Maurits W., Liu, Yu, Bauer, Eric D., Tjeng, Liu Hao, Zwicknagl, Gertrud, and Severing, Andrea

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity
Abstract

CeRh$_2$As$_2$ is a new multiphase superconductor with strong suggestions for an additional itinerant multipolar ordered phase. The modeling of the low temperature properties of this heavy fermion compound requires a quartet Ce$^{3+}$ crystal-field ground state. Here we provide the evidence for the formation of such a quartet state using x-ray spectroscopy. Core-level photoelectron and x-ray absorption spectroscopy confirm the presence of Kondo hybridization in CeRh$_2$As$_2$. The temperature dependence of the linear dichroism unambiguously reveils the impact of Kondo physics for coupling the Kramer's doublets into an effective quasi-quartet. Non-resonant inelastic x-ray scattering data find that the $|\Gamma_7^- \rangle$ state with its lobes along the 110 direction of the tetragonal structure ($xy$ orientation) contributes most to the multi-orbital ground state of CeRh$_2$As$_2$., Comment: 8 pages, 7 figures

Published
2023
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15. HyperFormer: Enhancing Entity and Relation Interaction for Hyper-Relational Knowledge Graph Completion

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Ru, and Pan, Jeff Z.

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

Hyper-relational knowledge graphs (HKGs) extend standard knowledge graphs by associating attribute-value qualifiers to triples, which effectively represent additional fine-grained information about its associated triple. Hyper-relational knowledge graph completion (HKGC) aims at inferring unknown triples while considering its qualifiers. Most existing approaches to HKGC exploit a global-level graph structure to encode hyper-relational knowledge into the graph convolution message passing process. However, the addition of multi-hop information might bring noise into the triple prediction process. To address this problem, we propose HyperFormer, a model that considers local-level sequential information, which encodes the content of the entities, relations and qualifiers of a triple. More precisely, HyperFormer is composed of three different modules: an entity neighbor aggregator module allowing to integrate the information of the neighbors of an entity to capture different perspectives of it; a relation qualifier aggregator module to integrate hyper-relational knowledge into the corresponding relation to refine the representation of relational content; a convolution-based bidirectional interaction module based on a convolutional operation, capturing pairwise bidirectional interactions of entity-relation, entity-qualifier, and relation-qualifier. realize the depth perception of the content related to the current statement. Furthermore, we introduce a Mixture-of-Experts strategy into the feed-forward layers of HyperFormer to strengthen its representation capabilities while reducing the amount of model parameters and computation. Extensive experiments on three well-known datasets with four different conditions demonstrate HyperFormer's effectiveness. Datasets and code are available at https://github.com/zhiweihu1103/HKGC-HyperFormer., Comment: Accepted at CIKM'23

Published
2023

28. 1st Place Solution for YouTubeVOS Challenge 2022: Referring Video Object Segmentation

Author

Hu, Zhiwei, Chen, Bo, Gao, Yuan, Ji, Zhilong, and Bai, Jinfeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The task of referring video object segmentation aims to segment the object in the frames of a given video to which the referring expressions refer. Previous methods adopt multi-stage approach and design complex pipelines to obtain promising results. Recently, the end-to-end method based on Transformer has proved its superiority. In this work, we draw on the advantages of the above methods to provide a simple and effective pipeline for RVOS. Firstly, We improve the state-of-the-art one-stage method ReferFormer to obtain mask sequences that are strongly correlated with language descriptions. Secondly, based on a reliable and high-quality keyframe, we leverage the superior performance of video object segmentation model to further enhance the quality and temporal consistency of the mask results. Our single model reaches 70.3 J &F on the Referring Youtube-VOS validation set and 63.0 on the test set. After ensemble, we achieve 64.1 on the final leaderboard, ranking 1st place on CVPR2022 Referring Youtube-VOS challenge. Code will be available at https://github.com/Zhiweihhh/cvpr2022-rvos-challenge.git., Comment: 4 pages, 2 figures

Published
2022

29. Position-Aware Contrastive Alignment for Referring Image Segmentation

Author

Chen, Bo, Hu, Zhiwei, Ji, Zhilong, Bai, Jinfeng, and Zuo, Wangmeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Referring image segmentation aims to segment the target object described by a given natural language expression. Typically, referring expressions contain complex relationships between the target and its surrounding objects. The main challenge of this task is to understand the visual and linguistic content simultaneously and to find the referred object accurately among all instances in the image. Currently, the most effective way to solve the above problem is to obtain aligned multi-modal features by computing the correlation between visual and linguistic feature modalities under the supervision of the ground-truth mask. However, existing paradigms have difficulty in thoroughly understanding visual and linguistic content due to the inability to perceive information directly about surrounding objects that refer to the target. This prevents them from learning aligned multi-modal features, which leads to inaccurate segmentation. To address this issue, we present a position-aware contrastive alignment network (PCAN) to enhance the alignment of multi-modal features by guiding the interaction between vision and language through prior position information. Our PCAN consists of two modules: 1) Position Aware Module (PAM), which provides position information of all objects related to natural language descriptions, and 2) Contrastive Language Understanding Module (CLUM), which enhances multi-modal alignment by comparing the features of the referred object with those of related objects. Extensive experiments on three benchmarks demonstrate our PCAN performs favorably against the state-of-the-art methods. Our code will be made publicly available., Comment: 12 pages, 6 figures

Published
2022

30. Discovery of a metallic oxide with ultralow thermal conductivity

Author

Dai, Jianhong, Liu, Zhehong, Ji, Jialin, Dong, Xuejuan, Yu, Jihai, Ye, Xubin, Wang, Weipeng, Yu, RiCheng, Hu, Zhiwei, Zhao, Huaizhou, Wan, Xiangang, Zhang, Wenqing, and Long, Youwen

Subjects
Condensed Matter - Materials Science
Abstract

A compound with metallic electrical conductivity usually has a considerable total thermal conductivity because both electrons and photons contribute to thermal transport. Here, we show an exceptional example of iridium oxide, Bi3Ir3O11, that concurrently displays metallic electrical conductivity and ultralow thermal conductivity approaching 0.61 W m-1 K-1 at 300 K. The compound crystallizes into a cubic structural framework with space group Pn-3. The edge- and corner-sharing IrO6 octahedra with a mixed Ir4.33+ charge state favor metallic electrical transport. Bi3Ir3O11 exhibits an extremely low lattice thermal conductivity close to the minimum limit in theory owing to its tunnel-like structure with filled heavy atoms Bi rattling inside. Theoretical calculations reveal the underlying mechanisms for the extraordinary compatibility between metallic electrical conductivity and ultralow thermal conductivity. This study may establish a new avenue for designing and developing unprecedented heat-insulation metals., Comment: 20 pages, 4 figures

Published
2022

31. Numerical Simulation of the Aerodynamic Noise of the Leading Bogie of a High-Speed Train

Author

He, Yuan, Thompson, David, Hu, Zhiwei, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Sheng, Xiaozhen, editor, Thompson, David, editor, Degrande, Geert, editor, Nielsen, Jens C. O., editor, Gautier, Pierre-Etienne, editor, Nagakura, Kiyoshi, editor, Kuijpers, Ard, editor, Nelson, James Tuman, editor, Towers, David A., editor, Anderson, David, editor, and Tielkes, Thorsten, editor

Published
2024
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32. Only Classification Head Is Sufficient for Medical Image Segmentation

Author

Wei, Hongbin, Hu, Zhiwei, Chen, Bo, Ji, Zhilong, Jia, Hongpeng, Zhang, Lihe, Lu, Huchuan, 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, Liu, Qingshan, editor, Wang, Hanzi, editor, Ma, Zhanyu, editor, Zheng, Weishi, editor, Zha, Hongbin, editor, Chen, Xilin, editor, Wang, Liang, editor, and Ji, Rongrong, editor

Published
2024
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33. Single crystal growth and magnetism of Sr3NaIrO6 and Sr3AgIrO6: tracking the J = 0 ground state of Ir5+

Author

Song, Peng-Bo, Hu, Zhiwei, Hsu, Su-Yang, Chen, Jin-Ming, Lee, Jyh-Fu, Miao, Shan-Shan, Sh, You-Guo, and Feng, Hai L.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Single crystals of Sr3NaIrO6 and Sr3AgIrO6 have been successfully grown using hydroxides flux. Sr3NaIrO6 and Sr3AgIrO6 crystallize in the K4CdCl6-type structure with the space group R-3c (No.167). Sr3NaIrO6 and Sr3AgIrO6 are electrically insulating with estimated activation gaps of 0.68 eV and 0.80 eV, respectively. Sr3NaIrO6 and Sr3AgIrO6 show paramagnetic behavior down to 2 K., Comment: corrected errors for single crystal growth method

Published
2022
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34. Transformer-based Entity Typing in Knowledge Graphs

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Ru, and Pan, Jeff Z.

Subjects
Computer Science - Artificial Intelligence
Abstract

We investigate the knowledge graph entity typing task which aims at inferring plausible entity types. In this paper, we propose a novel Transformer-based Entity Typing (TET) approach, effectively encoding the content of neighbors of an entity. More precisely, TET is composed of three different mechanisms: a local transformer allowing to infer missing types of an entity by independently encoding the information provided by each of its neighbors; a global transformer aggregating the information of all neighbors of an entity into a single long sequence to reason about more complex entity types; and a context transformer integrating neighbors content based on their contribution to the type inference through information exchange between neighbor pairs. Furthermore, TET uses information about class membership of types to semantically strengthen the representation of an entity. Experiments on two real-world datasets demonstrate the superior performance of TET compared to the state-of-the-art., Comment: Paper accepted at EMNLP 2022

Published
2022

35. High-energy all-solid-state lithium batteries enabled by Co-free LiNiO2 cathodes with robust outside-in structures

Author

Wang, Longlong, Mukherjee, Ayan, Kuo, Chang-Yang, Chakrabarty, Sankalpita, Yemini, Reut, Dameron, Arrelaine A., DuMont, Jaime W., Akella, Sri Harsha, Saha, Arka, Taragin, Sarah, Aviv, Hagit, Naveh, Doron, Sharon, Daniel, Chan, Ting-Shan, Lin, Hong-Ji, Lee, Jyh-Fu, Chen, Chien-Te, Liu, Boyang, Gao, Xiangwen, Basu, Suddhasatwa, Hu, Zhiwei, Aurbach, Doron, Bruce, Peter G., and Noked, Malachi

Published
2024
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36. Research progress in structural modification of Camptothecins

Author

Sun Shulei, Liu Xinxin, Hu Zhiwei, and Wang Ziming

Subjects
camptothecin, structural modification, anti-tumor, Medicine, Biotechnology, TP248.13-248.65
Abstract

Camptothecin and its derivatives are alkaloids with broad-spectrum anti-tumor activities and have significant inhibitory effect on malignant tumors. Its derivatives such as irinotecan and topotecan have been on market over 20 years. As a antitumor drug family, main problems of camptothecins are low solubility, poor structural stability, and strong toxic side effects, therefore the corresponding structural modification strategies are upgraded with the improvement of drug development. The author aims to improve the efficacy of camptothecin based anti-tumor drugs and reviews the development process of camptothecin and its derivatives from the perspective of structural modification strategies. The focus is on summarizing the latest progress in research on camptothecin based derivatives under various strategic guidance since 2015, providing reference for the development of new camptothecin based anti-tumor drugs in the future.

Published
2024
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37. Visual Subtitle Feature Enhanced Video Outline Generation

Author

Lv, Qi, Cao, Ziqiang, Xie, Wenrui, Wang, Derui, Wang, Jingwen, Hu, Zhiwei, Zhang, Tangkun, Yuan, Ba, Li, Yuanhang, Cao, Min, Li, Wenjie, Li, Sujian, and Fu, Guohong

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

With the tremendously increasing number of videos, there is a great demand for techniques that help people quickly navigate to the video segments they are interested in. However, current works on video understanding mainly focus on video content summarization, while little effort has been made to explore the structure of a video. Inspired by textual outline generation, we introduce a novel video understanding task, namely video outline generation (VOG). This task is defined to contain two sub-tasks: (1) first segmenting the video according to the content structure and then (2) generating a heading for each segment. To learn and evaluate VOG, we annotate a 10k+ dataset, called DuVOG. Specifically, we use OCR tools to recognize subtitles of videos. Then annotators are asked to divide subtitles into chapters and title each chapter. In videos, highlighted text tends to be the headline since it is more likely to attract attention. Therefore we propose a Visual Subtitle feature Enhanced video outline generation model (VSENet) which takes as input the textual subtitles together with their visual font sizes and positions. We consider the VOG task as a sequence tagging problem that extracts spans where the headings are located and then rewrites them to form the final outlines. Furthermore, based on the similarity between video outlines and textual outlines, we use a large number of articles with chapter headings to pretrain our model. Experiments on DuVOG show that our model largely outperforms other baseline methods, achieving 77.1 of F1-score for the video segmentation level and 85.0 of ROUGE-L_F0.5 for the headline generation level.

Published
2022

39. Type-aware Embeddings for Multi-Hop Reasoning over Knowledge Graphs

Author

Hu, Zhiwei, Gutiérrez-Basulto, Víctor, Xiang, Zhiliang, Li, Xiaoli, Li, Ru, and Pan, Jeff Z.

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

Multi-hop reasoning over real-life knowledge graphs (KGs) is a highly challenging problem as traditional subgraph matching methods are not capable to deal with noise and missing information. To address this problem, it has been recently introduced a promising approach based on jointly embedding logical queries and KGs into a low-dimensional space to identify answer entities. However, existing proposals ignore critical semantic knowledge inherently available in KGs, such as type information. To leverage type information, we propose a novel TypE-aware Message Passing (TEMP) model, which enhances the entity and relation representations in queries, and simultaneously improves generalization, deductive and inductive reasoning. Remarkably, TEMP is a plug-and-play model that can be easily incorporated into existing embedding-based models to improve their performance. Extensive experiments on three real-world datasets demonstrate TEMP's effectiveness., Comment: Accepted to IJCAI-ECAI 2022

Published
2022

40. Deeply Interleaved Two-Stream Encoder for Referring Video Segmentation

Author

Feng, Guang, Zhang, Lihe, Hu, Zhiwei, and Lu, Huchuan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Referring video segmentation aims to segment the corresponding video object described by the language expression. To address this task, we first design a two-stream encoder to extract CNN-based visual features and transformer-based linguistic features hierarchically, and a vision-language mutual guidance (VLMG) module is inserted into the encoder multiple times to promote the hierarchical and progressive fusion of multi-modal features. Compared with the existing multi-modal fusion methods, this two-stream encoder takes into account the multi-granularity linguistic context, and realizes the deep interleaving between modalities with the help of VLGM. In order to promote the temporal alignment between frames, we further propose a language-guided multi-scale dynamic filtering (LMDF) module to strengthen the temporal coherence, which uses the language-guided spatial-temporal features to generate a set of position-specific dynamic filters to more flexibly and effectively update the feature of current frame. Extensive experiments on four datasets verify the effectiveness of the proposed model.

Published
2022

48. Knowledge Graph Link Prediction Fusing Description and Structural Features

Author

CHEN Jiaxing, HU Zhiwei, LI Ru, HAN Xiaoqi, LU Jiang, YAN Zhichao

Subjects
knowledge graph, link prediction, bert, convolutional neural networks (cnn), Electronic computers. Computer science, QA75.5-76.95
Abstract

Knowledge graph generally has the problem of incomplete knowledge, which makes link prediction an important research content of knowledge graph. Existing models only focus on the embedding representation of triples. On the one hand, in terms of model input, only the embedding representation of entities and relations is randomly initialized, and the description information of entities and relations is not incorporated, which will lack semantic information; on the other hand, in decoding, the influence of the structural features of the triplet itself on the link prediction results is ignored. Aiming at the above problems, this paper proposes a knowledge graph link prediction model BFGAT (graph attention network link prediction based on fusion of description information and structural features) that integrates description information and structural features. The BFGAT model uses the BERT pretraining model to encode the description information of entities and relations, and integrates the description information into the embedding representation of entities and relations to solve the problem of missing semantic information. In the coding process, graph attention mechanism is used to aggregate the information of adjacent nodes to solve the problem that the target node can obtain more information. The embedding representation of triples is spliced into a matrix in the decoding process, using a method based on CNN convolution pooling to solve the problem of triple structural features. The model is subjected to detailed experiments on the public datasets FB15k-237 and WN18RR, and the experiments show that the BFGAT model can effectively improve the effect of knowledge graph link prediction.

Published
2024
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49. A ferrotoroidic candidate with well-separated spin chains

Author

Zhang, Jun, Wang, Xiancheng, Zhou, Long, Liu, Gangxiu, Adroja, Devashibhai T., da Silva, Ivan, Demmel, Franz, Khalyavin, Dmitry, Sannigrahi, Jhuma, Nair, Hari S., Duan, Lei, Zhao, Jianfa, Deng, Zeng, Yu, Runze, Shen, Xi, Yu, Richeng, Zhao, Hui, Zhao, Jimin, Long, Youwen, Hu, Zhiwei, Lin, Hong-Ji, Chan, Ting-Shan, Chen, Chien-Te, Wu, Wei, and Jin, Changqing

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The search of novel quasi one-dimensional (1D) materials is one of the important aspects in the field of material science. Toroidal moment, the order parameter of ferrotoroidic order, can be generated by a head-to-tail configuration of magnetic moment. It has been theoretically proposed that one-dimensional (1D) dimerized and antiferromagnetic-like spin chain hosts ferrotoroidicity and has the toroidal moment composed of only two antiparallel spins. Here, we report a ferrotoroidic candidate of Ba6Cr2S10 with such a theoretical model of spin chain. The structure consists of unique dimerized face-sharing CrS6 octahedral chains along the c axis. An antiferromagnetic-like ordering at ~10 K breaks both space- and time-reversal symmetries and the magnetic point group of mm'2' allows three ferroic orders in Ba6Cr2S10: (anti)ferromagnetic, ferroelectric and ferrotoroidic orders. Our investigation reveals that Ba6Cr2S10 is a rare ferrotoroidic candidate with quasi 1D spin chain, which can be considered as a starting point for the further exploration of the physics and applications of ferrotoroidicity.

Published
2022

50. Youling: an AI-Assisted Lyrics Creation System

Author

Zhang, Rongsheng, Mao, Xiaoxi, Li, Le, Jiang, Lin, Chen, Lin, Hu, Zhiwei, Xi, Yadong, Fan, Changjie, and Huang, Minlie

Subjects
Computer Science - Computation and Language
Abstract

Recently, a variety of neural models have been proposed for lyrics generation. However, most previous work completes the generation process in a single pass with little human intervention. We believe that lyrics creation is a creative process with human intelligence centered. AI should play a role as an assistant in the lyrics creation process, where human interactions are crucial for high-quality creation. This paper demonstrates \textit{Youling}, an AI-assisted lyrics creation system, designed to collaborate with music creators. In the lyrics generation process, \textit{Youling} supports traditional one pass full-text generation mode as well as an interactive generation mode, which allows users to select the satisfactory sentences from generated candidates conditioned on preceding context. The system also provides a revision module which enables users to revise undesired sentences or words of lyrics repeatedly. Besides, \textit{Youling} allows users to use multifaceted attributes to control the content and format of generated lyrics. The demo video of the system is available at https://youtu.be/DFeNpHk0pm4., Comment: accept by emnlp2020 demo track

Published
2022

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