Your search keyword '"Xia, Feng"' showing total 6 results

1. Uncovering Community Structures with Initialized Bayesian Nonnegative Matrix Factorization

Author

Xianchao Tang, Guoqing Yang, Xia Feng, and Tao Xu

Subjects

Computer and Information Sciences, Computer science, Bayesian probability, lcsh:Medicine, Social Sciences, Community Networks, Non-negative matrix factorization, Matrix (mathematics), Sociology, Singular value decomposition, Humans, Computer Simulation, Adjacency matrix, lcsh:Science, Sparse matrix, Multidisciplinary, lcsh:R, Bayes Theorem, Complex network, Models, Theoretical, Social Networks, lcsh:Q, Algorithm, Network Analysis, Algorithms, Network analysis, Research Article

Abstract

Uncovering community structures is important for understanding networks. Currently, several nonnegative matrix factorization algorithms have been proposed for discovering community structure in complex networks. However, these algorithms exhibit some drawbacks, such as unstable results and inefficient running times. In view of the problems, a novel approach that utilizes an initialized Bayesian nonnegative matrix factorization model for determining community membership is proposed. First, based on singular value decomposition, we obtain simple initialized matrix factorizations from approximate decompositions of the complex network's adjacency matrix. Then, within a few iterations, the final matrix factorizations are achieved by the Bayesian nonnegative matrix factorization method with the initialized matrix factorizations. Thus, the network's community structure can be determined by judging the classification of nodes with a final matrix factor. Experimental results show that the proposed method is highly accurate and offers competitive performance to that of the state-of-the-art methods even though it is not designed for the purpose of modularity maximization.

Published

2014

2. Quantifying the impact of scholarly papers based on higher-order weighted citations.

Author

Bai, Xiaomei, Zhang, Fuli, Hou, Jie, Lee, Ivan, Kong, Xiangjie, Tolba, Amr, and Xia, Feng

Subjects

CITATION analysis, SCHOLARLY publishing, BIBLIOMETRICS, SIMULATION methods & models, ALGORITHMS

Abstract

Quantifying the impact of a scholarly paper is of great significance, yet the effect of geographical distance of cited papers has not been explored. In this paper, we examine 30,596 papers published in Physical Review C, and identify the relationship between citations and geographical distances between author affiliations. Subsequently, a relative citation weight is applied to assess the impact of a scholarly paper. A higher-order weighted quantum PageRank algorithm is also developed to address the behavior of multiple step citation flow. Capturing the citation dynamics with higher-order dependencies reveals the actual impact of papers, including necessary self-citations that are sometimes excluded in prior studies. Quantum PageRank is utilized in this paper to help differentiating nodes whose PageRank values are identical. [ABSTRACT FROM AUTHOR]

Published

2018

3. Identifying Anomalous Citations for Objective Evaluation of Scholarly Article Impact.

Author

Bai, Xiaomei, Xia, Feng, Lee, Ivan, Zhang, Jun, and Ning, Zhaolong

Subjects

*APPLIED mathematics, *CONFLICT of interests, *RESEARCH grants, *CITATION analysis, *RANKING (Statistics)

Abstract

Evaluating the impact of a scholarly article is of great significance and has attracted great attentions. Although citation-based evaluation approaches have been widely used, these approaches face limitations e.g. in identifying anomalous citations patterns. This negligence would inevitably cause unfairness and inaccuracy to the article impact evaluation. In this study, in order to discover the anomalous citations and ensure the fairness and accuracy of research outcome evaluation, we investigate the citation relationships between articles using the following factors: collaboration times, the time span of collaboration, citing times and the time span of citing to weaken the relationship of Conflict of Interest (COI) in the citation network. Meanwhile, we study a special kind of COI, namely suspected COI relationship. Based on the COI relationship, we further bring forward the COIRank algorithm, an innovative scheme for accurately assessing the impact of an article. Our method distinguishes the citation strength, and utilizes PageRank and HITS algorithms to rank scholarly articles comprehensively. The experiments are conducted on the American Physical Society (APS) dataset. We find that about 80.88% articles contain contributed citations by co-authors in 26,366 articles and 75.55% articles among these articles are cited by the authors belonging to the same affiliation, indicating COI and suspected COI should not be ignored for evaluating impact of scientific papers objectively. Moreover, our experimental results demonstrate COIRank algorithm significantly outperforms the state-of-art solutions. The validity of our approach is verified by using the probability of Recommendation Intensity. [ABSTRACT FROM AUTHOR]

Published

2016

4. Exploiting Publication Contents and Collaboration Networks for Collaborator Recommendation.

Author

Kong, Xiangjie, Jiang, Huizhen, Yang, Zhuo, Xu, Zhenzhen, Xia, Feng, and Tolba, Amr

Subjects

SOCIAL networks, SOCIOLOGY, DATA mining, INFORMATION technology, MATHEMATICAL models

Abstract

Thanks to the proliferation of online social networks, it has become conventional for researchers to communicate and collaborate with each other. Meanwhile, one critical challenge arises, that is, how to find the most relevant and potential collaborators for each researcher? In this work, we propose a novel collaborator recommendation model called CCRec, which combines the information on researchers’ publications and collaboration network to generate better recommendation. In order to effectively identify the most potential collaborators for researchers, we adopt a topic clustering model to identify the academic domains, as well as a random walk model to compute researchers’ feature vectors. Using DBLP datasets, we conduct benchmarking experiments to examine the performance of CCRec. The experimental results show that CCRec outperforms other state-of-the-art methods in terms of precision, recall and F1 score. [ABSTRACT FROM AUTHOR]

Published

2016

5. Quantifying the impact of scholarly papers based on higher-order weighted citations

Author

Feng Xia, Ivan Lee, Jie Hou, Xiangjie Kong, Amr Tolba, Fuli Zhang, Xiaomei Bai, Bai, Xiaomei, Zhang, Fuli, Hou, Jie, Lee, Ivan, Kong, Xiangjie, Tolba, Amr, and Xia, Feng

Subjects

FOS: Computer and information sciences, Computer science, Population Dynamics, lcsh:Medicine, law.invention, Geographical Locations, Order (exchange), law, Citation analysis, Digital Libraries (cs.DL), lcsh:Science, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Multidisciplinary, Latitude, Geography, Applied Mathematics, Simulation and Modeling, 05 social sciences, Computer Science - Digital Libraries, Research Assessment, Europe, Longitude, Physical Sciences, Citation Analysis, quantifying the impact, 050904 information & library sciences, Algorithms, Research Article, Cartography, InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, Bibliometrics, 050905 science studies, Research and Analysis Methods, weighted citations, PageRank, Humans, Pagerank algorithm, Information retrieval, Manuscripts as Topic, Population Biology, lcsh:R, author affiliations, Biology and Life Sciences, Models, Theoretical, Geographic Distribution, People and Places, North America, Earth Sciences, lcsh:Q, 0509 other social sciences, Citation, Mathematics

Abstract

Quantifying the impact of a scholarly paper is of great significance, yet the effect of geographical distance of cited papers has not been explored. In this paper, we examine 30,596 papers published in Physical Review C, and identify the relationship between citations and geographical distances between author affiliations. Subsequently, a relative citation weight is applied to assess the impact of a scholarly paper. A higher-order weighted quantum PageRank algorithm is also developed to address the behavior of multiple step citation flow. Capturing the citation dynamics with higher-order dependencies reveals the actual impact of papers, including necessary self-citations that are sometimes excluded in prior studies. Quantum PageRank is utilized in this paper to help differentiating nodes whose PageRank values are identical. Refereed/Peer-reviewed

Published

2018

6. Identifying Anomalous Citations for Objective Evaluation of Scholarly Article Impact

Author

Feng Xia, Jun Zhang, Xiaomei Bai, Ivan Lee, Zhaolong Ning, Bai, Xiaomei, Xia, Feng, Lee, Ivan, Zhang, Jun, and Ning, Zhaolong

Subjects

validity, Citation network, Computer science, experimental model, lcsh:Medicine, law.invention, Mathematical and Statistical Techniques, law, Citation analysis, lcsh:Science, Multidisciplinary, Mathematical Models, medical terms, Applied Mathematics, Simulation and Modeling, Scientometrics, 05 social sciences, Research Assessment, Professions, Databases as Topic, Physical Sciences, Learning to rank, Journal Impact Factor, 050904 information & library sciences, Algorithms, Research Article, Science Policy, conflict of interest, probability, Research Grants, Bibliometrics, Research and Analysis Methods, 050905 science studies, Research Funding, PageRank, Research Errors, Probability, Publishing, Information retrieval, Conflict of Interest, lcsh:R, Conflict of interest, Teachers, Authorship, Random Walk, People and Places, lcsh:Q, Population Groupings, 0509 other social sciences, Citation, Mathematics

Abstract

Evaluating the impact of a scholarly article is of great significance and has attracted great attentions. Although citation-based evaluation approaches have been widely used, these approaches face limitations e.g. in identifying anomalous citations patterns. This negligence would inevitably cause unfairness and inaccuracy to the article impact evaluation. In this study, in order to discover the anomalous citations and ensure the fairness and accuracy of research outcome evaluation, we investigate the citation relationships between articles using the following factors: collaboration times, the time span of collaboration, citing times and the time span of citing to weaken the relationship of Conflict of Interest (COI) in the citation network. Meanwhile, we study a special kind of COI, namely suspected COI relationship. Based on the COI relationship, we further bring forward the COIRank algorithm, an innovative scheme for accurately assessing the impact of an article. Our method distinguishes the citation strength, and utilizes PageRank and HITS algorithms to rank scholarly articles comprehensively. The experiments are conducted on the American Physical Society (APS) dataset. We find that about 80.88% articles contain contributed citations by coauthors in 26,366 articles and 75.55% articles among these articles are cited by the authors belonging to the same affiliation, indicating COI and suspected COI should not be ignored for evaluating impact of scientific papers objectively. Moreover, our experimental results demonstrate COIRank algorithm significantly outperforms the state-of-art solutions. The validity of our approach is verified by using the probability of Recommendation Intensity. Refereed/Peer-reviewed

Published

2016