Your search keyword '"Deng Cheng"' showing total 2,619 results

1. Evolution of GCGR family ligand-receptor extensive cross-interaction systems suggests a therapeutic direction for hyperglycemia in mammals

Author

Liu Jian, Wang Xue, Zhang Wenli, Liao Guangneng, Shao Zhenhua, Brosius Juergen, Deng Cheng, Lai Shanshan, and Long Enwu

Subjects

glucagon receptor family, GLP1R, GLP2, cross stimulation, diabetes treatment, Biochemistry, QD415-436, Genetics, QH426-470

Abstract

Glucose is essential to the physiological processes of vertebrates. Mammalian physiological stability requires a relatively stable blood glucose level (~5 mM), whereas other vertebrates have greater flexibility in regulating blood glucose (0.5–25 mM). GCGR family receptors play an important role in vertebrate glucose regulation. Here, we examine the evolution of the GCGR family ligand-receptor systems in different species. Comparatively, we discover that the conserved sequences among GCG family ligands lead to the non-specific activation of ligands across species. In particular, we observe that glucagon-like peptide 1 receptor (GLP1R), glucagon-like peptide 2 receptor (GLP2R), and glucagon-like receptor (GCGLR, also called GCRPR) are arbitrarily activated by other members of the ligand family in birds. Moreover, we reveal that Gallus gallus GLP2 (gGLP2) effectively activates mammalian GLP1R and improves glucose tolerance in diabetic mice. Our study has important implications for understanding blood glucose stabilization in vertebrates and demonstrates that gGLP2 may be a potential drug for treating type 2 diabetes.

Published

2023

2. Progress in laser powder bed fusion of pure copper/copper alloy highly reflective metal materials

Author

ZHU Yongqiang, YANG Yongqiang, WANG Di, CHEN Feng, DENG Cheng, and CHEN Xiaojun

Subjects

laser powder bed fusion, highly reflective material, laser absorption rate, pure copper/copper alloy, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Pure copper/copper alloy has excellent thermal and electrical conductivity, which is an important industrial material. Laser powder bed fusion, which represents the laser additive manufacturing technology, has excellent design freedom and forming accuracy, and is the mainstream development direction of additive manufacturing. Compared with traditional processing and manufacturing technology, the laser powder bed fusion of pure copper/copper alloy can give better play to the excellent performance of copper, and has broad application prospects in the fields of high thermal conductivity/electrical conductivity such as electrical and electronic, automotive, aerospace and other fields. The current research status of laser powder bed fusion of laser high-reflective materials represented by pure copper/copper alloys, the important problems they face, and the analysis of corresponding solutions were reviewed in this paper. On this basis, combined with the team's experience in the laser powder bed fusion process of pure copper/copper alloy, it was pointed out that the use of blue, green and other short-wavelength lasers for the powder bed laser fusion of pure copper/copper alloy and other highly reflective materials is a future study hot spots and development directions.

Published

2022

3. High-precision pulse calibration of tunable couplers for high-fidelity two-qubit gates in superconducting quantum processors

Author

Li, Tian-Ming, Zhang, Jia-Chi, Chen, Bing-Jie, Huang, Kaixuan, Liu, Hao-Tian, Xiao, Yong-Xi, Deng, Cheng-Lin, Liang, Gui-Han, Chen, Chi-Tong, Liu, Yu, Li, Hao, Bao, Zhen-Ting, Zhao, Kui, Xu, Yueshan, Li, Li, He, Yang, Liu, Zheng-He, Yu, Yi-Han, Zhou, Si-Yun, Liu, Yan-Jun, Song, Xiaohui, Zheng, Dongning, Xiang, Zhong-Cheng, Shi, Yun-Hao, Xu, Kai, and Fan, Heng

Subjects

Quantum Physics

Abstract

For superconducting quantum processors, stable high-fidelity two-qubit operations depend on precise flux control of the tunable coupler. However, the pulse distortion poses a significant challenge to the control precision. Current calibration methods, which often rely on microwave crosstalk or additional readout resonators for coupler excitation and readout, tend to be cumbersome and inefficient, especially when couplers only have flux control. Here, we introduce and experimentally validate a novel pulse calibration scheme that exploits the strong coupling between qubits and couplers, eliminating the need for extra coupler readout and excitation. Our method directly measures the short-time and long-time step responses of the coupler flux pulse transient, enabling us to apply predistortion to subsequent signals using fast Fourier transformation and deconvolution. This approach not only simplifies the calibration process but also significantly improves the precision and stability of the flux control. We demonstrate the efficacy of our method through the implementation of diabatic CZ and iSWAP gates with fidelities of $99.61\pm0.04\%$ and $99.82\pm0.02\%$, respectively, as well as a series of diabatic CPhase gates with high fidelities characterized by cross-entropy benchmarking. The consistency and robustness of our technique are further validated by the reduction in pulse distortion and phase error observed across multilayer CZ gates. These results underscore the potential of our calibration and predistortion method to enhance the performance of two-qubit gates in superconducting quantum processors., Comment: 16 pages, 11 figures, 7 tables

Published

2024

4. Theoretical study on low-lying hidden-bottom and double-bottom tetraquark states

Author

Jiang, Lin-Juan, An, Chun-Sheng, Deng, Cheng-Rong, Li, Gang, and Xie, Ju-Jun

Subjects

High Energy Physics - Phenomenology

Abstract

We perform a theoretical study on the spectrum of the low-lying hidden-bottom ($q\bar{q}b\bar{b}$ with $q=$ $u$, $d$ and $s$) and double-bottom ($q\bar{q}bb$) tetraquark states within a nonrelativistic quark model, in which the instanton-induced interaction is taken as the residual spin-dependent hyperfine interaction between quarks. All the model parameters are fixed by fitting the spectrum of the ground hadron states. The numerical results indicate that masses of several $X_{q\bar{q}}$, $Z_{b}$, and $Z_{bs}$ tetraquark states are below and near thresholds of corresponding meson-meson channels, thus these states may form components of exotic meson states with reasonable probabilities. Especially, in present model, masses of several obtained states with quantum number $I^G(J^P)=1^+(1^{+})$ are close to $Z_b^\pm(10610)$, so one may expect these states to be non-negligible components of the experimentally observed $Z_{b}$ states. Concerning to the double-bottom tetraquark states, the present results are in general consistent with other previous works. Two possible stable $T_{bb}$ states with quark content $bb\bar{n}\bar{n}$ ($n=u$ or $d$ quark) lying at energies $10558$ MeV and $10650$ MeV are found, and one possible stable $bb\bar{n}\bar{s}$ state is found, whose energy is $\sim10687$ MeV., Comment: 15 pages, 7 figures, 12 tables

Published

2024

5. Self-Supervised Graph Embedding Clustering

Author

Li, Fangfang, Gao, Quanxue, Deng, Cheng, and Xia, Wei

Subjects

Computer Science - Machine Learning

Abstract

The K-means one-step dimensionality reduction clustering method has made some progress in addressing the curse of dimensionality in clustering tasks. However, it combines the K-means clustering and dimensionality reduction processes for optimization, leading to limitations in the clustering effect due to the introduced hyperparameters and the initialization of clustering centers. Moreover, maintaining class balance during clustering remains challenging. To overcome these issues, we propose a unified framework that integrates manifold learning with K-means, resulting in the self-supervised graph embedding framework. Specifically, we establish a connection between K-means and the manifold structure, allowing us to perform K-means without explicitly defining centroids. Additionally, we use this centroid-free K-means to generate labels in low-dimensional space and subsequently utilize the label information to determine the similarity between samples. This approach ensures consistency between the manifold structure and the labels. Our model effectively achieves one-step clustering without the need for redundant balancing hyperparameters. Notably, we have discovered that maximizing the $\ell_{2,1}$-norm naturally maintains class balance during clustering, a result that we have theoretically proven. Finally, experiments on multiple datasets demonstrate that the clustering results of Our-LPP and Our-MFA exhibit excellent and reliable performance.

Published

2024

6. AceParse: A Comprehensive Dataset with Diverse Structured Texts for Academic Literature Parsing

Author

Ji, Huawei, Deng, Cheng, Xue, Bo, Jin, Zhouyang, Ding, Jiaxin, Gan, Xiaoying, Fu, Luoyi, Wang, Xinbing, and Zhou, Chenghu

Subjects

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

Abstract

With the development of data-centric AI, the focus has shifted from model-driven approaches to improving data quality. Academic literature, as one of the crucial types, is predominantly stored in PDF formats and needs to be parsed into texts before further processing. However, parsing diverse structured texts in academic literature remains challenging due to the lack of datasets that cover various text structures. In this paper, we introduce AceParse, the first comprehensive dataset designed to support the parsing of a wide range of structured texts, including formulas, tables, lists, algorithms, and sentences with embedded mathematical expressions. Based on AceParse, we fine-tuned a multimodal model, named AceParser, which accurately parses various structured texts within academic literature. This model outperforms the previous state-of-the-art by 4.1% in terms of F1 score and by 5% in Jaccard Similarity, demonstrating the potential of multimodal models in academic literature parsing. Our dataset is available at https://github.com/JHW5981/AceParse., Comment: 5 pages, 3 figures, 3 tables

Published

2024

7. Good Idea or Not, Representation of LLM Could Tell

Author

Xu, Yi, Xue, Bo, Sheng, Shuqian, Deng, Cheng, Ding, Jiaxin, Shen, Zanwei, Fu, Luoyi, Wang, Xinbing, and Zhou, Chenghu

Subjects

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

Abstract

In the ever-expanding landscape of academic research, the proliferation of ideas presents a significant challenge for researchers: discerning valuable ideas from the less impactful ones. The ability to efficiently evaluate the potential of these ideas is crucial for the advancement of science and paper review. In this work, we focus on idea assessment, which aims to leverage the knowledge of large language models to assess the merit of scientific ideas. First, we investigate existing text evaluation research and define the problem of quantitative evaluation of ideas. Second, we curate and release a benchmark dataset from nearly four thousand manuscript papers with full texts, meticulously designed to train and evaluate the performance of different approaches to this task. Third, we establish a framework for quantifying the value of ideas by employing representations in a specific layer of large language models. Experimental results show that the scores predicted by our method are relatively consistent with those of humans. Our findings suggest that the representations of large language models hold more potential in quantifying the value of ideas than their generative outputs, demonstrating a promising avenue for automating the idea assessment process.

Published

2024

8. Experimental demonstration of spontaneous symmetry breaking with emergent multi-qubit entanglement

Author

Zheng, Ri-Hua, Ning, Wen, Lü, Jia-Hao, Yu, Xue-Jia, Wu, Fang, Deng, Cheng-Lin, Yang, Zhen-Biao, Xu, Kai, Zheng, Dongning, Fan, Heng, and Zheng, Shi-Biao

Subjects

Quantum Physics

Abstract

Spontaneous symmetry breaking (SSB) is crucial to the occurrence of phase transitions. Once a phase transition occurs, a quantum system presents degenerate eigenstates that lack the symmetry of the Hamiltonian. After crossing the critical point, the system is essentially evolved to a quantum superposition of these eigenstates until decoherence sets in. Despite the fundamental importance and potential applications in quantum technologies, such quantum-mechanical SSB phenomena have not been experimentally explored in many-body systems. We here present an experimental demonstration of the SSB process in the Lipkin-Meshkov-Glick model, governed by the competition between the individual driving and intra-qubit interaction. The model is realized in a circuit quantum electrodynamics system, where 6 Xmon qubits are coupled in an all-to-all manner through virtual photon exchange mediated by a resonator. The observed nonclassical correlations among these qubits in the symmetry-breaking region go beyond the conventional description of SSB, shedding new light on phase transitions for quantum many-body systems., Comment: 27 pages, 18 figures

Published

2024

9. Antioxidant and antimicrobial activities of different enzymatic hydrolysates from desalted duck egg white

Author

Rommanee Thammasena and Deng Cheng Liu

Subjects

desalted duck egg white, hydrolysate, antioxidant activity, antimicrobial activity, Animal culture, SF1-1100, Animal biochemistry, QP501-801

Abstract

Objective The objective of this study was to look for optimal preparation of hydrolysates of desalted duck egg white powder (DDEWP) by the three different proteases and to investigate their antioxidant and antimicrobial properties. Methods DDEWP was hydrolyzed by three proteases, including pepsin (PEP), Bacillus spp. (BA) and natokinase (NAT) with three different enzyme concentrations (0.1%, 0.3%, and 0.5%), individually. The important key hydrolysis parameters such as hydrolysis degree, yield, antioxidant and antimicrobial activity were evaluated in this experiment. Results The results showed that the degree of hydrolysis (DH) of all treatments increased with increasing hydrolysis time and protease concentrations. The antioxidant and antimicrobial activities of the hydrolysates were affected by type and concentration of protease as well as hydrolysis time. Hydrolysis of PEP significantly (p37% to 92%) and BA (30% to 79%). Besides, DDEWP hydrolysates of PEP presented significantly higher reducing power than BA and NAT. In antimicrobial activities, Escherichia coli, Salmonella typhimurium, and Pseudomonas aeruginosa were not effectively inhibited by any DDEWP hydrolysates of PEP except for Staphylococcus aureus. Especially, the excellent antibacterial activity against S. aureus only was displayed in DDEWP hydrolysates of PEP 0.1%. Conclusion DDEWP hydrolysates from PEP demonstrated significantly better DH, yield, DPPH radical scavenging activity and reducing power, furthermore, had excellent inhibitory on S. aureus due to large clear zone and moderated inhibitory in bactericidal inhibition.

Published

2020

10. On-demand shaped photon emission based on a parametrically modulated qubit

Author

Li, Xiang, Li, Sheng-Yong, Zhao, Si-Lu, Mei, Zheng-Yang, He, Yang, Deng, Cheng-Lin, Liu, Yu, Liu, Yan-Jun, Liang, Gui-Han, Wang, Jin-Zhe, Song, Xiao-Hui, Xu, Kai, Heng, Fan, Zhang, Yu-Xiang, Xiang, Zhong-Cheng, and Zheng, Dong-Ning

Subjects

Quantum Physics

Abstract

In the circuit quantum electrodynamics architectures, to realize a long-range quantum network mediated by flying photon, it is necessary to shape the temporal profile of emitted photons to achieve high transfer efficiency between two quantum nodes. In this work, we demonstrate a new single-rail and dual-rail time-bin shaped photon generator without additional flux-tunable elements, which can act as a quantum interface of a point-to-point quantum network. In our approach, we adopt a qubit-resonator-transmission line configuration, and the effective coupling strength between the qubit and the resonator can be varied by parametrically modulating the qubit frequency. In this way, the coupling is directly proportional to the parametric modulation amplitude and covers a broad tunable range beyond 20 MHz for the sample we used. Additionally, when emitting shaped photons, we find that the spurious frequency shift (-0.4 MHz) due to parametric modulation is small and can be readily calibrated through chirping. We develop an efficient photon field measurement setup based on the data stream processing of GPU. Utilizing this system, we perform photon temporal profile measurement, quantum state tomography of photon field, and quantum process tomography of single-rail quantum state transfer based on a heterodyne measurement scheme. The single-rail encoding state transfer fidelity of shaped photon emission is 90.32%, and that for unshaped photon is 97.20%, respectively. We believe that the fidelity of shaped photon emission is mainly limited by the qubit coherence time. The results demonstrate that our method is hardware efficient, simple to implement, and scalable. It could become a viable tool in a high-quality quantum network utilizing both single-rail and dual-rail time-bin encoding.

Published

2024

11. Multimodal Fusion on Low-quality Data: A Comprehensive Survey

Author

Zhang, Qingyang, Wei, Yake, Han, Zongbo, Fu, Huazhu, Peng, Xi, Deng, Cheng, Hu, Qinghua, Xu, Cai, Wen, Jie, Hu, Di, and Zhang, Changqing

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Multimodal fusion focuses on integrating information from multiple modalities with the goal of more accurate prediction, which has achieved remarkable progress in a wide range of scenarios, including autonomous driving and medical diagnosis. However, the reliability of multimodal fusion remains largely unexplored especially under low-quality data settings. This paper surveys the common challenges and recent advances of multimodal fusion in the wild and presents them in a comprehensive taxonomy. From a data-centric view, we identify four main challenges that are faced by multimodal fusion on low-quality data, namely (1) noisy multimodal data that are contaminated with heterogeneous noises, (2) incomplete multimodal data that some modalities are missing, (3) imbalanced multimodal data that the qualities or properties of different modalities are significantly different and (4) quality-varying multimodal data that the quality of each modality dynamically changes with respect to different samples. This new taxonomy will enable researchers to understand the state of the field and identify several potential directions. We also provide discussion for the open problems in this field together with interesting future research directions., Comment: Feel free to comment on our manuscript: qingyangzhang@tju$.$edu$.$cn

Published

2024

12. High-Discriminative Attribute Feature Learning for Generalized Zero-Shot Learning

Author

Lei, Yu, Sheng, Guoshuai, Li, Fangfang, Gao, Quanxue, Deng, Cheng, and Li, Qin

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Zero-shot learning(ZSL) aims to recognize new classes without prior exposure to their samples, relying on semantic knowledge from observed classes. However, current attention-based models may overlook the transferability of visual features and the distinctiveness of attribute localization when learning regional features in images. Additionally, they often overlook shared attributes among different objects. Highly discriminative attribute features are crucial for identifying and distinguishing unseen classes. To address these issues, we propose an innovative approach called High-Discriminative Attribute Feature Learning for Generalized Zero-Shot Learning (HDAFL). HDAFL optimizes visual features by learning attribute features to obtain discriminative visual embeddings. Specifically, HDAFL utilizes multiple convolutional kernels to automatically learn discriminative regions highly correlated with attributes in images, eliminating irrelevant interference in image features. Furthermore, we introduce a Transformer-based attribute discrimination encoder to enhance the discriminative capability among attributes. Simultaneously, the method employs contrastive loss to alleviate dataset biases and enhance the transferability of visual features, facilitating better semantic transfer between seen and unseen classes. Experimental results demonstrate the effectiveness of HDAFL across three widely used datasets.

Published

2024

13. Fuzzy K-Means Clustering without Cluster Centroids

Author

Lu, Han, Li, Fangfang, Gao, Quanxue, Deng, Cheng, Ding, Chris, and Wang, Qianqian

Subjects

Computer Science - Machine Learning

Abstract

Fuzzy K-Means clustering is a critical technique in unsupervised data analysis. However, the performance of popular Fuzzy K-Means algorithms is sensitive to the selection of initial cluster centroids and is also affected by noise when updating mean cluster centroids. To address these challenges, this paper proposes a novel Fuzzy K-Means clustering algorithm that entirely eliminates the reliance on cluster centroids, obtaining membership matrices solely through distance matrix computation. This innovation enhances flexibility in distance measurement between sample points, thus improving the algorithm's performance and robustness. The paper also establishes theoretical connections between the proposed model and popular Fuzzy K-Means clustering techniques. Experimental results on several real datasets demonstrate the effectiveness of the algorithm.

Published

2024

14. Interpretable Multi-View Clustering Based on Anchor Graph Tensor Factorization

Author

Wang, Rui, Li, Jing, Gao, Quanxue, and Deng, Cheng

Subjects

Computer Science - Machine Learning

Abstract

The clustering method based on the anchor graph has gained significant attention due to its exceptional clustering performance and ability to process large-scale data. One common approach is to learn bipartite graphs with K-connected components, helping avoid the need for post-processing. However, this method has strict parameter requirements and may not always get K-connected components. To address this issue, an alternative approach is to directly obtain the cluster label matrix by performing non-negative matrix factorization (NMF) on the anchor graph. Nevertheless, existing multi-view clustering methods based on anchor graph factorization lack adequate cluster interpretability for the decomposed matrix and often overlook the inter-view information. We address this limitation by using non-negative tensor factorization to decompose an anchor graph tensor that combines anchor graphs from multiple views. This approach allows us to consider inter-view information comprehensively. The decomposed tensors, namely the sample indicator tensor and the anchor indicator tensor, enhance the interpretability of the factorization. Extensive experiments validate the effectiveness of this method.

Published

2024

15. NovelQA: Benchmarking Question Answering on Documents Exceeding 200K Tokens

Author

Wang, Cunxiang, Ning, Ruoxi, Pan, Boqi, Wu, Tonghui, Guo, Qipeng, Deng, Cheng, Bao, Guangsheng, Hu, Xiangkun, Zhang, Zheng, Wang, Qian, and Zhang, Yue

Subjects

Computer Science - Computation and Language

Abstract

The rapid advancement of Large Language Models (LLMs) has introduced a new frontier in natural language processing, particularly in understanding and processing long-context information. However, the evaluation of these models' long-context abilities remains a challenge due to the limitations of current benchmarks. To address this gap, we introduce NovelQA, a benchmark specifically designed to test the capabilities of LLMs with extended texts. Constructed from English novels, NovelQA offers a unique blend of complexity, length, and narrative coherence, making it an ideal tool for assessing deep textual understanding in LLMs. This paper presents the design and construction of NovelQA, highlighting its manual annotation, and diverse question types. Our evaluation of Long-context LLMs on NovelQA reveals significant insights into the models' performance, particularly emphasizing the challenges they face with multi-hop reasoning, detail-oriented questions, and extremely long input with an average length more than 200,000 tokens. The results underscore the necessity for further advancements in LLMs to improve their long-context comprehension.

Published

2024

16. Exploring Hilbert-Space Fragmentation on a Superconducting Processor

Author

Wang, Yong-Yi, Shi, Yun-Hao, Sun, Zheng-Hang, Chen, Chi-Tong, Wang, Zheng-An, Zhao, Kui, Liu, Hao-Tian, Ma, Wei-Guo, Wang, Ziting, Li, Hao, Zhang, Jia-Chi, Liu, Yu, Deng, Cheng-Lin, Li, Tian-Ming, He, Yang, Liu, Zheng-He, Peng, Zhen-Yu, Song, Xiaohui, Xue, Guangming, Yu, Haifeng, Huang, Kaixuan, Xiang, Zhongcheng, Zheng, Dongning, Xu, Kai, and Fan, Heng

Subjects

Quantum Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics

Abstract

Isolated interacting quantum systems generally thermalize, yet there are several counterexamples for the breakdown of ergodicity, such as many-body localization and quantum scars. Recently, ergodicity breaking has been observed in systems subjected to linear potentials, termed Stark many-body localization. This phenomenon is closely associated with Hilbert-space fragmentation, characterized by a strong dependence of dynamics on initial conditions. Here, we experimentally explore initial-state dependent dynamics using a ladder-type superconducting processor with up to 24 qubits, which enables precise control of the qubit frequency and initial state preparation. In systems with linear potentials, we observe distinct non-equilibrium dynamics for initial states with the same quantum numbers and energy, but with varying domain wall numbers. This distinction becomes increasingly pronounced as the system size grows, in contrast with disordered interacting systems. Our results provide convincing experimental evidence of the fragmentation in Stark systems, enriching our understanding of the weak breakdown of ergodicity., Comment: main text: 7 pages, 4 figures; supplementary: 13 pages, 14 figures

Published

2024

17. AceMap: Knowledge Discovery through Academic Graph

Author

Wang, Xinbing, Fu, Luoyi, Gan, Xiaoying, Wen, Ying, Zheng, Guanjie, Ding, Jiaxin, Xiang, Liyao, Ye, Nanyang, Jin, Meng, Liang, Shiyu, Lu, Bin, Wang, Haiwen, Xu, Yi, Deng, Cheng, Zhang, Shao, Kang, Huquan, Wang, Xingli, Li, Qi, Guo, Zhixin, Qi, Jiexing, Liu, Pan, Ren, Yuyang, Wu, Lyuwen, Yang, Jungang, Zhou, Jianping, and Zhou, Chenghu

Subjects

Computer Science - Digital Libraries, Computer Science - Machine Learning, Computer Science - Social and Information Networks

Abstract

The exponential growth of scientific literature requires effective management and extraction of valuable insights. While existing scientific search engines excel at delivering search results based on relational databases, they often neglect the analysis of collaborations between scientific entities and the evolution of ideas, as well as the in-depth analysis of content within scientific publications. The representation of heterogeneous graphs and the effective measurement, analysis, and mining of such graphs pose significant challenges. To address these challenges, we present AceMap, an academic system designed for knowledge discovery through academic graph. We present advanced database construction techniques to build the comprehensive AceMap database with large-scale academic entities that contain rich visual, textual, and numerical information. AceMap also employs innovative visualization, quantification, and analysis methods to explore associations and logical relationships among academic entities. AceMap introduces large-scale academic network visualization techniques centered on nebular graphs, providing a comprehensive view of academic networks from multiple perspectives. In addition, AceMap proposes a unified metric based on structural entropy to quantitatively measure the knowledge content of different academic entities. Moreover, AceMap provides advanced analysis capabilities, including tracing the evolution of academic ideas through citation relationships and concept co-occurrence, and generating concise summaries informed by this evolutionary process. In addition, AceMap uses machine reading methods to generate potential new ideas at the intersection of different fields. Exploring the integration of large language models and knowledge graphs is a promising direction for future research in idea evolution. Please visit \url{https://www.acemap.info} for further exploration., Comment: Technical Report for AceMap (https://www.acemap.info)

Published

2024

18. One-Step Multi-View Clustering Based on Transition Probability

Author

Zhao, Wenhui, Gao, Quanxue, Li, Guangfei, Deng, Cheng, and Yang, Ming

Subjects

Computer Science - Machine Learning

Abstract

The large-scale multi-view clustering algorithms, based on the anchor graph, have shown promising performance and efficiency and have been extensively explored in recent years. Despite their successes, current methods lack interpretability in the clustering process and do not sufficiently consider the complementary information across different views. To address these shortcomings, we introduce the One-Step Multi-View Clustering Based on Transition Probability (OSMVC-TP). This method adopts a probabilistic approach, which leverages the anchor graph, representing the transition probabilities from samples to anchor points. Our method directly learns the transition probabilities from anchor points to categories, and calculates the transition probabilities from samples to categories, thus obtaining soft label matrices for samples and anchor points, enhancing the interpretability of clustering. Furthermore, to maintain consistency in labels across different views, we apply a Schatten p-norm constraint on the tensor composed of the soft labels. This approach effectively harnesses the complementary information among the views. Extensive experiments have confirmed the effectiveness and robustness of OSMVC-TP., Comment: 8 pages

Published

2024

19. Multiparametric MRI-based radiomics combined with 3D deep transfer learning to predict cervical stromal invasion in patients with endometrial carcinoma

Author

Wang, Xianhong, Bi, Qiu, Deng, Cheng, Wang, Yaoxin, Miao, Yunbo, Kong, Ruize, Chen, Jie, Li, Chenrong, Liu, Xiulan, Gong, Xiarong, Zhang, Ya, and Bi, Guoli

Published

2024

20. DS-Agent: Automated Data Science by Empowering Large Language Models with Case-Based Reasoning

Author

Guo, Siyuan, Deng, Cheng, Wen, Ying, Chen, Hechang, Chang, Yi, and Wang, Jun

Subjects

Computer Science - Machine Learning

Abstract

In this work, we investigate the potential of large language models (LLMs) based agents to automate data science tasks, with the goal of comprehending task requirements, then building and training the best-fit machine learning models. Despite their widespread success, existing LLM agents are hindered by generating unreasonable experiment plans within this scenario. To this end, we present DS-Agent, a novel automatic framework that harnesses LLM agent and case-based reasoning (CBR). In the development stage, DS-Agent follows the CBR framework to structure an automatic iteration pipeline, which can flexibly capitalize on the expert knowledge from Kaggle, and facilitate consistent performance improvement through the feedback mechanism. Moreover, DS-Agent implements a low-resource deployment stage with a simplified CBR paradigm to adapt past successful solutions from the development stage for direct code generation, significantly reducing the demand on foundational capabilities of LLMs. Empirically, DS-Agent with GPT-4 achieves 100\% success rate in the development stage, while attaining 36\% improvement on average one pass rate across alternative LLMs in the deployment stage. In both stages, DS-Agent achieves the best rank in performance, costing \$1.60 and \$0.13 per run with GPT-4, respectively. Our data and code are open-sourced at https://github.com/guosyjlu/DS-Agent., Comment: Accepted by ICML 2024

Published

2024

21. Label Learning Method Based on Tensor Projection

Author

Li, Jing, Gao, Quanxue, Wang, Qianqian, Deng, Cheng, and Xie, Deyan

Subjects

Computer Science - Machine Learning

Abstract

Multi-view clustering method based on anchor graph has been widely concerned due to its high efficiency and effectiveness. In order to avoid post-processing, most of the existing anchor graph-based methods learn bipartite graphs with connected components. However, such methods have high requirements on parameters, and in some cases it may not be possible to obtain bipartite graphs with clear connected components. To end this, we propose a label learning method based on tensor projection (LLMTP). Specifically, we project anchor graph into the label space through an orthogonal projection matrix to obtain cluster labels directly. Considering that the spatial structure information of multi-view data may be ignored to a certain extent when projected in different views separately, we extend the matrix projection transformation to tensor projection, so that the spatial structure information between views can be fully utilized. In addition, we introduce the tensor Schatten $p$-norm regularization to make the clustering label matrices of different views as consistent as possible. Extensive experiments have proved the effectiveness of the proposed method.

Published

2024

22. High-order topological pumping on a superconducting quantum processor

Author

Deng, Cheng-Lin, Liu, Yu, Zhang, Yu-Ran, Li, Xue-Gang, Liu, Tao, Chen, Chi-Tong, Liu, Tong, Lu, Cong-Wei, Wang, Yong-Yi, Li, Tian-Ming, Fang, Cai-Ping, Zhou, Si-Yun, Song, Jia-Cheng, Xu, Yue-Shan, He, Yang, Liu, Zheng-He, Huang, Kai-Xuan, Xiang, Zhong-Cheng, Wang, Jie-Ci, Zheng, Dong-Ning, Xue, Guang-Ming, Xu, Kai, Yu, H. F., and Fan, Heng

Subjects

Quantum Physics

Abstract

High-order topological phases of matter refer to the systems of $n$-dimensional bulk with the topology of $m$-th order, exhibiting $(n-m)$-dimensional boundary modes and can be characterized by topological pumping. Here, we experimentally demonstrate two types of second-order topological pumps, forming four 0-dimensional corner localized states on a 4$\times$4 square lattice array of 16 superconducting qubits. The initial ground state of the system for half-filling, as a product of four identical entangled 4-qubit states, is prepared using an adiabatic scheme. During the pumping procedure, we adiabatically modulate the superlattice Bose-Hubbard Hamiltonian by precisely controlling both the hopping strengths and on-site potentials. At the half pumping period, the system evolves to a corner-localized state in a quadrupole configuration. The robustness of the second-order topological pump is also investigated by introducing different on-site disorder. Our work studies the topological properties of high-order topological phases from the dynamical transport picture using superconducting qubits, which would inspire further research on high-order topological phases.

Published

2024

23. Entropy-Regularized Token-Level Policy Optimization for Language Agent Reinforcement

Author

Wen, Muning, Liao, Junwei, Deng, Cheng, Wang, Jun, Zhang, Weinan, and Wen, Ying

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Large Language Models (LLMs) have shown promise as intelligent agents in interactive decision-making tasks. Traditional approaches often depend on meticulously designed prompts, high-quality examples, or additional reward models for in-context learning, supervised fine-tuning, or RLHF. Reinforcement learning (RL) presents a dynamic alternative for LLMs to overcome these dependencies by engaging directly with task-specific environments. Nonetheless, it faces significant hurdles: 1) instability stemming from the exponentially vast action space requiring exploration; 2) challenges in assigning token-level credit based on action-level reward signals, resulting in discord between maximizing rewards and accurately modeling corpus data. In response to these challenges, we introduce Entropy-Regularized Token-level Policy Optimization (ETPO), an entropy-augmented RL method tailored for optimizing LLMs at the token level. At the heart of ETPO is our novel per-token soft Bellman update, designed to harmonize the RL process with the principles of language modeling. This methodology decomposes the Q-function update from a coarse action-level view to a more granular token-level perspective, backed by theoretical proof of optimization consistency. Crucially, this decomposition renders linear time complexity in action exploration. We assess the effectiveness of ETPO within a simulated environment that models data science code generation as a series of multi-step interactive tasks; results underline ETPO's potential as a robust method for refining the interactive decision-making capabilities of language agents. For a more detailed preliminary work describing our motivation for token-level decomposition and applying it in PPO methods, please refer to arXiv:2405.15821.

Published

2024

24. Do You Guys Want to Dance: Zero-Shot Compositional Human Dance Generation with Multiple Persons

Author

Xu, Zhe, Wei, Kun, Yang, Xu, and Deng, Cheng

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Human dance generation (HDG) aims to synthesize realistic videos from images and sequences of driving poses. Despite great success, existing methods are limited to generating videos of a single person with specific backgrounds, while the generalizability for real-world scenarios with multiple persons and complex backgrounds remains unclear. To systematically measure the generalizability of HDG models, we introduce a new task, dataset, and evaluation protocol of compositional human dance generation (cHDG). Evaluating the state-of-the-art methods on cHDG, we empirically find that they fail to generalize to real-world scenarios. To tackle the issue, we propose a novel zero-shot framework, dubbed MultiDance-Zero, that can synthesize videos consistent with arbitrary multiple persons and background while precisely following the driving poses. Specifically, in contrast to straightforward DDIM or null-text inversion, we first present a pose-aware inversion method to obtain the noisy latent code and initialization text embeddings, which can accurately reconstruct the composed reference image. Since directly generating videos from them will lead to severe appearance inconsistency, we propose a compositional augmentation strategy to generate augmented images and utilize them to optimize a set of generalizable text embeddings. In addition, consistency-guided sampling is elaborated to encourage the background and keypoints of the estimated clean image at each reverse step to be close to those of the reference image, further improving the temporal consistency of generated videos. Extensive qualitative and quantitative results demonstrate the effectiveness and superiority of our approach.

Published

2024

25. Disorder-induced topological pumping on a superconducting quantum processor

Author

Liu, Yu, Zhang, Yu-Ran, Shi, Yun-Hao, Liu, Tao, Lu, Congwei, Wang, Yong-Yi, Li, Hao, Li, Tian-Ming, Deng, Cheng-Lin, Zhou, Si-Yun, Liu, Tong, Zhang, Jia-Chi, Liang, Gui-Han, Mei, Zheng-Yang, Ma, Wei-Guo, Liu, Hao-Tian, Liu, Zheng-He, Chen, Chi-Tong, Huang, Kaixuan, Song, Xiaohui, Zhao, SP, Tian, Ye, Xiang, Zhongcheng, Zheng, Dongning, Nori, Franco, Xu, Kai, and Fan, Heng

Subjects

Quantum Physics

Abstract

Thouless pumping, a dynamical version of the integer quantum Hall effect, represents the quantized charge pumped during an adiabatic cyclic evolution. Here we report experimental observations of nontrivial topological pumping that is induced by disorder even during a topologically trivial pumping trajectory. With a 41-qubit superconducting quantum processor, we develop a Floquet engineering technique to realize cycles of adiabatic pumping by simultaneously varying the on-site potentials and the hopping couplings. We demonstrate Thouless pumping in the presence of disorder and show its breakdown as the strength of disorder increases. Moreover, we observe two types of topological pumping that are induced by on-site potential disorder and hopping disorder, respectively. Especially, an intrinsic topological pump that is induced by quasi-periodic hopping disorder has never been experimentally realized before. Our highly controllable system provides a valuable quantum simulating platform for studying various aspects of topological physics in the presence of disorder.

Published

2024

26. GeoGalactica: A Scientific Large Language Model in Geoscience

Author

Lin, Zhouhan, Deng, Cheng, Zhou, Le, Zhang, Tianhang, Xu, Yi, Xu, Yutong, He, Zhongmou, Shi, Yuanyuan, Dai, Beiya, Song, Yunchong, Zeng, Boyi, Chen, Qiyuan, Miao, Yuxun, Xue, Bo, Wang, Shu, Fu, Luoyi, Zhang, Weinan, He, Junxian, Zhu, Yunqiang, Wang, Xinbing, and Zhou, Chenghu

Subjects

Computer Science - Computation and Language, I.2.7, F.4.1

Abstract

Large language models (LLMs) have achieved huge success for their general knowledge and ability to solve a wide spectrum of tasks in natural language processing (NLP). Due to their impressive abilities, LLMs have shed light on potential inter-discipline applications to foster scientific discoveries of a specific domain by using artificial intelligence (AI for science, AI4S). In the meantime, utilizing NLP techniques in geoscience research and practice is wide and convoluted, contributing from knowledge extraction and document classification to question answering and knowledge discovery. In this work, we take the initial step to leverage LLM for science, through a rather straightforward approach. We try to specialize an LLM into geoscience, by further pre-training the model with a vast amount of texts in geoscience, as well as supervised fine-tuning (SFT) the resulting model with our custom collected instruction tuning dataset. These efforts result in a model GeoGalactica consisting of 30 billion parameters. To our best knowledge, it is the largest language model for the geoscience domain. More specifically, GeoGalactica is from further pre-training of Galactica. We train GeoGalactica over a geoscience-related text corpus containing 65 billion tokens, preserving as the largest geoscience-specific text corpus. Then we fine-tune the model with 1 million pairs of instruction-tuning data consisting of questions that demand professional geoscience knowledge to answer. In this technical report, we will illustrate in detail all aspects of GeoGalactica, including data collection, data cleaning, base model selection, pre-training, SFT, and evaluation. We open-source our data curation tools and the checkpoints of GeoGalactica during the first 3/4 of pre-training.

Published

2023

27. $P$-wave states $T^-_{bb}$ from diquarks

Author

Lin, Zu-Hang, An, Chun-Sheng, and Deng, Cheng-Rong

Subjects

High Energy Physics - Phenomenology

Abstract

We investigate the $P$-wave states $T^-_{bb}$ in the isospin singlet and three excited modes [excitation occurring in the diquark $[bb]^{s_1}_{c_1}$ ($\rho $-mode), antidiquark $[\bar{u}\bar{d}]^{s_2}_{c_2}$ ($r$-mode) or between them ($\lambda$-mode)] from diquarks in a quark model. We analyze the dynamical behaviors of the diquark $[bb]^{s_1}_{c_1}$, antidiquark $[\bar{u}\bar{d}]^{s_2}_{c_2}$ and their correlations in the states $T^-_{bb}$ by decomposing the interactions from various sources in the model. The absolute dominant color-spin configuration, more than $99\%$, in the $\rho$-mode with $1^1P_1$ is $[bb]^0_{\bar{\mathbf{3}}}[\bar{u}\bar{d}]^0_{\mathbf{3}}$. Its energy is lower by about $18$ MeV than the threshold $\bar{B}\bar{B}$ so that it can establish a compact bound state. The chromomagnetic and meson-exchange interactions in the antidiquark $[\bar{u}\bar{d}]^0_{\mathbf{3}}$ are responsible for its binding mechanism. Two other excited modes are higher than their respective threshold. The color configuration $\mathbf{6}\otimes\bar{\mathbf{6}}$ need to be handled discreetly in the tetraquark states., Comment: 7 pages, 1 figures, 4 tables, to be published in Phys. Rev. D

Published

2023

28. Synthesis and Antibacterial Property of Silver Doped Hydroxyapatite by Precipitation and Hydrothermal Method

Author

DENG Cheng, QI Xiao-peng, LI Qian, YIN Cong-ling, and YANG Hui

Subjects

Ag-HA, precipitation method, hydrothermal method, crystal structure, antibacterial property, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Nanorod Ag doped hydroxyapatites (Ag-HA) were synthesized by precipitation and hydrothermal method. Crystal structure, morphology and antibacterial property of prepared samples with silver contents prepared by different synthesis methods were investigated. The results show that Ag doped hydroxyapatites synthesized by hydrothermal method possess a higher length to diameter ratio, higher degree of crystallinity, better dispersion,larger grain size and smaller unit cell parameters. The average crystal size of prepared samples by precipitation method at 70℃ and hydrothermal method at 180℃ are (22.7±0.7)nm and (50.7±0.9)nm, respectively. In addition, adding silver into hydroxyapatite may increase grain size and unit cell parameters. When silver content is 1.30%, average grain size and unit cell parameters are (53.7±0.9)nm and a =0.9465nm, c =0.6970nm, respectively. Antibacterial test results indicate that Ag-HA exhibits good bactericidal property against Escherichia coli ( E.coli ) and Staphylococcus aureus ( S.aureus ). The antibacterial rate is 100% when silver content varies after different hours(1, 3, 6, 12, 24h).

Published

2017

29. Selective sintering of magnesia–calcia materials by utilizing hot spots during induction sintering process

Author

Dong, Yun-jie, Wang, Zhou-fu, Liu, Hao, Ma, Yan, Wang, Xi-tang, Yi, Nian, Xia, Zhong-feng, Zhu, Yu-xuan, Deng, Cheng-ji, and Zhang, Ling

Published

2024

30. A review on graphite surface modification methods towards low carbon-containing refractories

Author

Zhang, Ting-ting, Ding, Jun, Ma, Bei-yue, Liu, Zheng-long, Yu, Chao, and Deng, Cheng-ji

Published

2024

31. Effect of micro-Al2O3 powders on oxidation and corrosion behaviors of low-carbon MgO–C refractories

Author

Chen, Yang, Li, Zeng-yi, Tan, Hao-bo, Fu, Yu-ran, Ding, Jun, Deng, Cheng-ji, and Yu, Chao

Published

2024

32. Effect of nano-graphite on mechanical properties and oxidation resistance of ZrB2–SiC–graphite electrode ceramics

Author

Yang, Bo-lin, Kuang, Chang-liu, Liu, Zheng-long, Yu, Chao, Deng, Cheng-ji, and Ding, Jun

Published

2024

33. Enhancing Uncertainty-Based Hallucination Detection with Stronger Focus

Author

Zhang, Tianhang, Qiu, Lin, Guo, Qipeng, Deng, Cheng, Zhang, Yue, Zhang, Zheng, Zhou, Chenghu, Wang, Xinbing, and Fu, Luoyi

Subjects

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

Abstract

Large Language Models (LLMs) have gained significant popularity for their impressive performance across diverse fields. However, LLMs are prone to hallucinate untruthful or nonsensical outputs that fail to meet user expectations in many real-world applications. Existing works for detecting hallucinations in LLMs either rely on external knowledge for reference retrieval or require sampling multiple responses from the LLM for consistency verification, making these methods costly and inefficient. In this paper, we propose a novel reference-free, uncertainty-based method for detecting hallucinations in LLMs. Our approach imitates human focus in factuality checking from three aspects: 1) focus on the most informative and important keywords in the given text; 2) focus on the unreliable tokens in historical context which may lead to a cascade of hallucinations; and 3) focus on the token properties such as token type and token frequency. Experimental results on relevant datasets demonstrate the effectiveness of our proposed method, which achieves state-of-the-art performance across all the evaluation metrics and eliminates the need for additional information., Comment: Accepted by EMNLP 2023 (main conference)

Published

2023

34. OsPT4 Contributes to Arsenate Uptake and Transport in Rice

Author

Ying Ye, Peng Li, Tangqian Xu, Liting Zeng, Deng Cheng, Meng Yang, Jie Luo, and Xingming Lian

Subjects

OsPT4, rice, arsenate, phosphate transporter, uptake, Plant culture, SB1-1110

Abstract

Arsenic (As) is toxic to organisms, and elevated As accumulation in rice (Oryza sativa) grain may pose a significant health risk to humans. The predominant form of As in soil under aerobic conditions is As(V), which has a chemical structure similar to that of PO43-. Rice roots take up As(V) by phosphate (Pi) transporters, such as OsPT1 and OsPT8. In the present study, we investigated the contribution of OsPT4, belonging to the Pht1 family, on rice As(V) uptake and transport. We determined the mRNA amounts of OsPTs in rice seedlings, and expressions of OsPT1, OsPT4, and OsPT8 were up-regulated under As(V) conditions. OsPT4-overexpressing plants were obtained to examine the As (V) transport activity of OsPT4 in rice. When transgenic rice grew in hydroponic culture with 25 and 50 μM As(V), the plants showed sensitivity to As(V) stress with aboveground parts showing delayed growth and the roots stunted. The OsPT4 CRISPR lines showed the opposite phenotype. When plants were grown in 5 μM As(V) solution for 7 days, the As accumulation of OsPT4-overexpressing plants increased up to twice in roots and shoots. Furthermore, the arsenate uptake rates of OsPT4-overexpressing lines were higher compared with wild type. The Vmax of As(V) uptake in OsPT4-overexpressing plants increased 23–45% compared with Nipponbare. In the flooded soil, the As accumulation of OsPT4-overexpressing plants increased 40–66% and 22–30% in straw and grain, respectively. While in OsPT4-cr plants As accumulation in roots decreased 17–30% compared with Nipponbare. Therefore, the present study indicates that OsPT4 is involved in As(V) uptake and transport and could be a good candidate gene to generate low As-accumulating rice.

Published

2017

35. Environment-Invariant Curriculum Relation Learning for Fine-Grained Scene Graph Generation

Author

Min, Yukuan, Wu, Aming, and Deng, Cheng

Subjects

Computer Science - Computer Vision and Pattern Recognition, 68Txx, I.4

Abstract

The scene graph generation (SGG) task is designed to identify the predicates based on the subject-object pairs.However,existing datasets generally include two imbalance cases: one is the class imbalance from the predicted predicates and another is the context imbalance from the given subject-object pairs, which presents significant challenges for SGG. Most existing methods focus on the imbalance of the predicted predicate while ignoring the imbalance of the subject-object pairs, which could not achieve satisfactory results. To address the two imbalance cases, we propose a novel Environment Invariant Curriculum Relation learning (EICR) method, which can be applied in a plug-and-play fashion to existing SGG methods. Concretely, to remove the imbalance of the subject-object pairs, we first construct different distribution environments for the subject-object pairs and learn a model invariant to the environment changes. Then, we construct a class-balanced curriculum learning strategy to balance the different environments to remove the predicate imbalance. Comprehensive experiments conducted on VG and GQA datasets demonstrate that our EICR framework can be taken as a general strategy for various SGG models, and achieve significant improvements., Comment: ICCV2023. arXiv admin note: text overlap with arXiv:2203.11654 by other authors

Published

2023

36. Tunable Coupling Architectures with Capacitively Connecting Pads for Large-Scale Superconducting Multi-Qubit Processors

Author

Liang, Gui-Han, Song, Xiao-Hui, Deng, Cheng-Lin, Gu, Xu-Yang, Yan, Yu, Mei, Zheng-Yang, Zhao, Si-Lu, Bu, Yi-Zhou, Xiao, Yong-Xi, Yu, Yi-Han, Wang, Ming-Chuan, Liu, Tong, Shi, Yun-Hao, Zhang, He, Li, Xiang, Li, Li, Wang, Jing-Zhe, Tian, Ye, Zhao, Shi-Ping, Xu, Kai, Fan, Heng, Xiang, Zhong-Cheng, and Zheng, Dong-Ning

Subjects

Quantum Physics

Abstract

We have proposed and experimentally verified a tunable inter-qubit coupling scheme for large-scale integration of superconducting qubits. The key feature of the scheme is the insertion of connecting pads between qubit and tunable coupling element. In such a way, the distance between two qubits can be increased considerably to a few millimeters, leaving enough space for arranging control lines, readout resonators and other necessary structures. The increased inter-qubit distance provides more wiring space for flip-chip process and reduces crosstalk between qubits and from control lines to qubits. We use the term Tunable Coupler with Capacitively Connecting Pad (TCCP) to name the tunable coupling part that consists of a transmon coupler and capacitively connecting pads. With the different placement of connecting pads, different TCCP architectures can be realized. We have designed and fabricated a few multi-qubit devices in which TCCP is used for coupling. The measured results show that the performance of the qubits coupled by the TCCP, such as $T_1$ and $T_2$, was similar to that of the traditional transmon qubits without TCCP. Meanwhile, our TCCP also exhibited a wide tunable range of the effective coupling strength and a low residual ZZ interaction between the qubits by properly tuning the parameters on the design. Finally, we successfully implemented an adiabatic CZ gate with TCCP. Furthermore, by introducing TCCP, we also discuss the realization of the flip-chip process and tunable coupling qubits between different chips., Comment: Main text: 7 pages, 6 figures

Published

2023

37. K2: A Foundation Language Model for Geoscience Knowledge Understanding and Utilization

Author

Deng, Cheng, Zhang, Tianhang, He, Zhongmou, Xu, Yi, Chen, Qiyuan, Shi, Yuanyuan, Fu, Luoyi, Zhang, Weinan, Wang, Xinbing, Zhou, Chenghu, Lin, Zhouhan, and He, Junxian

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, I.2.7, F.4.1

Abstract

Large language models (LLMs) have achieved great success in general domains of natural language processing. In this paper, we bring LLMs to the realm of geoscience with the objective of advancing research and applications in this field. To this end, we present the first-ever LLM in geoscience, K2, alongside a suite of resources developed to further promote LLM research within geoscience. For instance, we have curated the first geoscience instruction tuning dataset, GeoSignal, which aims to align LLM responses to geoscience-related user queries. Additionally, we have established the first geoscience benchmark, GeoBench, to evaluate LLMs in the context of geoscience. In this work, we experiment with a complete recipe to adapt a pre-trained general-domain LLM to the geoscience domain. Specifically, we further train the LLaMA-7B model on 5.5B tokens of geoscience text corpus, including over 1 million pieces of geoscience literature, and utilize GeoSignal's supervised data to fine-tune the model. Moreover, we share a protocol that can efficiently gather domain-specific data and construct domain-supervised data, even in situations where manpower is scarce. Meanwhile, we equip K2 with the abilities of using tools to be a naive geoscience aide. Experiments conducted on the GeoBench demonstrate the effectiveness of our approach and datasets on geoscience knowledge understanding and utilization.We open-source all the training data and K2 model checkpoints at https://github.com/davendw49/k2.

Published

2023

38. Microstructure, wear and friction behavior of CoCrAlTaY-xCNTs composite coatings deposited by laser-induction hybrid cladding

Author

Zhou, Sheng-Feng, Long, Yu, Yi, Yan-Liang, Deng, Cheng, and Hu, Lian-Xi

Published

2024

39. Initial Upper Palaeolithic material culture by 45,000 years ago at Shiyu in northern China

Author

Yang, Shi-Xia, Zhang, Jia-Fu, Yue, Jian-Ping, Wood, Rachel, Guo, Yu-Jie, Wang, Han, Luo, Wu-Gan, Zhang, Yue, Raguin, Emeline, Zhao, Ke-Liang, Zhang, Yu-Xiu, Huan, Fa-Xiang, Hou, Ya-Mei, Huang, Wei-Wen, Wang, Yi-Ren, Shi, Jin-Ming, Yuan, Bao-Yin, Ollé, Andreu, Queffelec, Alain, Zhou, Li-Ping, Deng, Cheng-Long, d’Errico, Francesco, and Petraglia, Michael

Published

2024

40. Quark exchange effects in single flavored dibaryons

Author

Deng, Cheng-Rong

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We reveal the quark exchange effects related to both the kinetic energy and various interactions in the single flavored dibaryon bound states with $^1S_0$ in the quark models. The hadron covalent bond can be established by the shared identical quarks due to the quark exchange effect between two colorless baryons. Such hadron covalent bond plays a decisive role in the deuteronlike di-$\Omega_{ccc}$ and di-$\Omega_{bbb}$ covalent molecule states. The $\sigma$-meson exchange is indispensable in the deuteronlike di-$\Delta^{++}$ and compact di-$\Omega$ states. The hadron covalent bond clearly appears in the di-$\Delta^{++}$ state but is hidden in the di-$\Omega$ state. The chromomagnetic interaction is always repulsive in the di-$\Delta^{++}$, di-$\Omega$, di-$\Omega_{ccc}$, and di-$\Omega_{bbb}$ states. The color-electric interaction is strongly attractive in the di-$\Omega$ state but weakly attractive or repulsive in the di-$\Delta^{++}$, di-$\Omega_{ccc}$, and di-$\Omega_{bbb}$ states., Comment: 7 pages, 4 tables

Published

2023

41. 3D Molecular Geometry Analysis with 2D Graphs

Author

Xu, Zhao, Xie, Yaochen, Luo, Youzhi, Zhang, Xuan, Xu, Xinyi, Liu, Meng, Dickerson, Kaleb, Deng, Cheng, Nakata, Maho, and Ji, Shuiwang

Subjects

Physics - Chemical Physics, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Ground-state 3D geometries of molecules are essential for many molecular analysis tasks. Modern quantum mechanical methods can compute accurate 3D geometries but are computationally prohibitive. Currently, an efficient alternative to computing ground-state 3D molecular geometries from 2D graphs is lacking. Here, we propose a novel deep learning framework to predict 3D geometries from molecular graphs. To this end, we develop an equilibrium message passing neural network (EMPNN) to better capture ground-state geometries from molecular graphs. To provide a testbed for 3D molecular geometry analysis, we develop a benchmark that includes a large-scale molecular geometry dataset, data splits, and evaluation protocols. Experimental results show that EMPNN can efficiently predict more accurate ground-state 3D geometries than RDKit and other deep learning methods. Results also show that the proposed framework outperforms self-supervised learning methods on property prediction tasks.

Published

2023

42. Covidia: COVID-19 Interdisciplinary Academic Knowledge Graph

Author

Deng, Cheng, Ding, Jiaxin, Fu, Luoyi, Zhang, Weinan, Wang, Xinbing, and Zhou, Chenghu

Subjects

Computer Science - Information Retrieval, Computer Science - Computation and Language, H.3.3, I.2.7

Abstract

The pandemic of COVID-19 has inspired extensive works across different research fields. Existing literature and knowledge platforms on COVID-19 only focus on collecting papers on biology and medicine, neglecting the interdisciplinary efforts, which hurdles knowledge sharing and research collaborations between fields to address the problem. Studying interdisciplinary researches requires effective paper category classification and efficient cross-domain knowledge extraction and integration. In this work, we propose Covidia, COVID-19 interdisciplinary academic knowledge graph to bridge the gap between knowledge of COVID-19 on different domains. We design frameworks based on contrastive learning for disciplinary classification, and propose a new academic knowledge graph scheme for entity extraction, relation classification and ontology management in accordance with interdisciplinary researches. Based on Covidia, we also establish knowledge discovery benchmarks for finding COVID-19 research communities and predicting potential links.

Published

2023

43. FMGNN: Fused Manifold Graph Neural Network

Author

Deng, Cheng, Xu, Fan, Ding, Jiaxing, Fu, Luoyi, Zhang, Weinan, and Wang, Xinbing

Subjects

Computer Science - Machine Learning, I.2.4, F.4.1

Abstract

Graph representation learning has been widely studied and demonstrated effectiveness in various graph tasks. Most existing works embed graph data in the Euclidean space, while recent works extend the embedding models to hyperbolic or spherical spaces to achieve better performance on graphs with complex structures, such as hierarchical or ring structures. Fusing the embedding from different manifolds can further take advantage of the embedding capabilities over different graph structures. However, existing embedding fusion methods mostly focus on concatenating or summing up the output embeddings, without considering interacting and aligning the embeddings of the same vertices on different manifolds, which can lead to distortion and impression in the final fusion results. Besides, it is also challenging to fuse the embeddings of the same vertices from different coordinate systems. In face of these challenges, we propose the Fused Manifold Graph Neural Network (FMGNN), a novel GNN architecture that embeds graphs into different Riemannian manifolds with interaction and alignment among these manifolds during training and fuses the vertex embeddings through the distances on different manifolds between vertices and selected landmarks, geometric coresets. Our experiments demonstrate that FMGNN yields superior performance over strong baselines on the benchmarks of node classification and link prediction tasks.

Published

2023

44. PK-Chat: Pointer Network Guided Knowledge Driven Generative Dialogue Model

Author

Deng, Cheng, Tong, Bo, Fu, Luoyi, Ding, Jiaxin, Cao, Dexing, Wang, Xinbing, and Zhou, Chenghu

Subjects

Computer Science - Computation and Language, I.2.7, F.4.1

Abstract

In the research of end-to-end dialogue systems, using real-world knowledge to generate natural, fluent, and human-like utterances with correct answers is crucial. However, domain-specific conversational dialogue systems may be incoherent and introduce erroneous external information to answer questions due to the out-of-vocabulary issue or the wrong knowledge from the parameters of the neural network. In this work, we propose PK-Chat, a Pointer network guided Knowledge-driven generative dialogue model, incorporating a unified pretrained language model and a pointer network over knowledge graphs. The words generated by PK-Chat in the dialogue are derived from the prediction of word lists and the direct prediction of the external knowledge graph knowledge. Moreover, based on the PK-Chat, a dialogue system is built for academic scenarios in the case of geosciences. Finally, an academic dialogue benchmark is constructed to evaluate the quality of dialogue systems in academic scenarios and the source code is available online.

Published

2023

45. Safety and Efficacy of Adalimumab for Patients With Moderate to Severe Crohn's Disease: The Taiwan Society of Inflammatory Bowel Disease (TSIBD) Study

Author

Chen-Wang Chang, Shu-Chen Wei, Jen-Wei Chou, Tzu-Chi Hsu, Chiao-Hsiung Chuang, Ching-Pin Lin, Wen-Hung Hsu, Hsu-Heng Yen, Jen-Kou Lin, Yi-Jen Fang, Horng-Yuan Wang, Hung-Hsin Lin, Deng Cheng Wu, Yen Hsuan Ni, Cheng-Yi Wang, and Jau-Min Wong

Subjects

Crohn disease, Adalimumab, Efficacy, Safety, Medicine, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background/AimsOnly moderate to severe Crohn's Disease (CD) patients without a satisfactory conventional therapy effect are eligible to get reimbursement from the National Health Insurance of Taiwan for using adalimumab. These are more stringent criteria than in many Western countries and Japan and Korea. We aim to explore the efficacy of using adalimumab in CD patients under such stringent criteria.MethodsA retrospective analysis was conducted in nine medical centers in Taiwan and we collected the results of CD patients receiving adalimumab from Sep 2009 to Mar 2014. The clinical characteristics, response measured by CDAI (Crohn's Disease Activity Index), adverse events and survival status were recorded and analyzed. CR-70, CR-100, and CR-150 were defined as attaining a CDAI decrease of 70, 100 or 150 points compared with baseline.ResultsA total of 103 CD patient records were used in this study. Sixty percent of these patients received combination therapy of adalimumab together with immunomodulators. CR-70 was 68.7%, 74.5% and 88.4% after week 4, 8 and 12 of treatment, respectively. The steroid-free rate, complications and survival were 47.6%, 9.7% and 99% of patients, respectively. In considering the mucosal healing, only 25% patients achieve mucosal healing after treatment for 6 to 12 months. Surgery was still needed in 16.5% of patients. Combination treatment of adalimumab with immunomodulators further decreased the level of CDAI at week 8 when compared with the monotherapy.ConclusionsEven under the stringent criteria for using adalimumab, the response rate was comparable to those without stringent criteria.

Published

2014

46. EvolveKG: a general framework to learn evolving knowledge graphs

Author

Liu, Jiaqi, Yu, Zhiwen, Guo, Bin, Deng, Cheng, Fu, Luoyi, Wang, Xinbing, and Zhou, Chenghu

Published

2024

47. The quark orbital angular momentum of ground state octet baryons

Author

Li, Jing-Feng, Chen, Cheng, Li, Gang, An, Chun-Sheng, Deng, Cheng-Rong, and Xie, Ju-Jun

Subjects

High Energy Physics - Phenomenology

Abstract

Here we study the quark orbital angular momentum of the ground octet baryons employing an extended chiral constituent quark model, within which the baryon wave functions are taken to be superposition of the traditional $qqq$ and the $qqqq\bar{q}$ higher Fock components. Coupling between the two configurations is estimated using the $^3P_{0}$ quark-antiquark creation mechanism, and the corresponding coupling strength is determined by fitting the sea flavor asymmetry of the nucleon. The obtained numerical results show that the quark angular momentum of the nucleon, $\Sigma$, $\Lambda$ and $\Xi$ hyperons are in the range $0.10$-$0.30$. In addition, the quark angular momentum of all the hyperons are a little bit smaller than that of the nucleon. And the octet baryons spin fractions taken by the intrinsic quark orbital angular momentum could be up to $60\%$ in present model., Comment: 9 pages, 3 figures, 3 tables

Published

2023

48. Deep Bayesian Quantization for Supervised Neuroimage Search

Author

Yang, Erkun, Deng, Cheng, Liu, Mingxia, 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, Cao, Xiaohuan, editor, Xu, Xuanang, editor, Rekik, Islem, editor, Cui, Zhiming, editor, and Ouyang, Xi, editor

Published

2024

49. New constant modulus algorithm suitable for nonconstant modulus signals

Author

RAO Wei, SUN Hui, GUO Ye-cai, DENG Cheng-zhi, WANG Sheng-qian, and TIAN Wei

Subjects

constant modulus algorithm, blind equalization, nonconstant modulus signals, Telecommunication, TK5101-6720

Abstract

The steady-state mean square error（MSE） of constant modulus algorithm（CMA） can not converge to zero for nonconstant modulus signals.By changing the multimodulus of nonconstant modulus source to single modulus,a new cost function was defined.And the new CMA based on such cost function can lead the steady-state MSE to zero.Theoretic analysis and computer simulation results demonstrate that the proposed algorithm offer high performance.

Published

2011

50. Effect of nano-Al2O3 particle addition on Co–P–xAl2O3 nanocomposite plating electroplated on X65 steel

Author

Liang, Guangwei, Gao, Zhiming, Deng, Cheng-Man, and Hu, Wenbin

Published

2024