Journal of Guangxi Normal University(Natural Science Edition) ›› 2014, Vol. 32 ›› Issue (4): 45-51.

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Document Selection for the Data-Brain Ontology and Related Information

ZHONG Han1, ZHONG Ning1,2,3, CHEN Jian-hui4, HAN Jian1   

  1. 1.International WIC Institute, Beijing University of Technology, Beijing 100124, China;
    2. Beijing Key Laboratory of MRI and Brain Informatics, Beijing 100124, China;
    3. Department of Life Science and Informatics, Maebashi Institute of Technology, Maebashi-City 371-0816, Japan;
    4. Department of Computer Science and Technology, Tsinghua University, Beijing 100084, China
  • Received:2014-05-23 Published:2018-09-26

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Abstract: The document selection related to brain information based on the data-brain ontology not only has an important significance in the promotion of data-brain ontology, but also lays the foundation for knowledge integration. However, traditional research of document selection only focuses on the concept, and cannot meet the requirement of the systematic Brain Informatics study. This paper analyzes the characteristics of source knowledge firstly with concepts, attributes and relations. Then, the weight of documents by using the improved method of Vector Space Model is calculated. Finally, experimental results between the weight of each document and experts’ judgement are basically the same by using real documents associated with brain science. The correlation coefficient is 0.975 346.

Key words: data-brain ontology, brain informatics provenances, documents selection

CLC Number: 

  • TP308
[1] ZHONG Ning, BRADSHAW J M, LIU Ji-ming, et al. Brain Informatics[J]. IEEE Intelligent Systems, 2011, 26(5): 16-21.
[2] HOWE D, COSTANZO M, FEY P, et al. Big Data: the future of biocuration[J]. Nature, 2008, 455(7209): 47-50.
[3] ZHONG Ning, CHEN Jian-hui. Constructing a new-style conceptual model of brain data for systematic brain informatics[J]. IEEE Transactions on Knowledge and Data Engineering, 2012, 24(12): 2127-2142.
[4] LEE D L, CHUANG Huei, SEAMONS K. Document ranking and the vector-space model[J]. IEEE Software, 1997, 14(2): 67-75.
[5] EGGHE L, MICHEL C. Construction of weak and strong similarity measures for ordered sets of documents using fuzzy set techniques[J]. Inf Proc and Manage, 2003, 39(5): 771-807.
[6] DANILOWICZ C, BALINSKI J. Document ranking based upon Markov chains[J]. Inf Proc and Manage, 2001, 37(4): 623-637.
[7] 邢军, 韩敏, 周开朋.领域本体信息源选取方法研究与实现[J].大连理工大学学报, 2007, 47(4): 598-604.
[8] CHU Wei, KEERTHI S S.New approaches to support vector ordinal regression[C]// Proceedings of the 22nd International Conference on Machine Learning.New York: ACM Press, 2005: 145-152.
[9] USUNIER N, BUFFONI D, GALLINARI P. Ranking with ordered weighted pairwise classification[C]// Proceedings of the 26th International Conference on Machine Learning. New York: ACM Press, 2009:1057-1064.
[10] McFEE B, LANCKRIET G. Metric learning to rank[C]//Proceedings of the 27th International Conference on Machine Learning. New York: ACM Press, 2010: 775-782.
[11] CARUANA R, BALUJA S, MITCHELL T. Using the future to "sort out" the present: Rankprop and Multitask learning for medical risk evaluation[C]// Advances on Neural Information Processing System 8. Cambridge, MA:MIT Press, 1996:959-965.
[12] SHASHUA A, LEVIN A. Ranking with large margin principle: two approaches[C]// Advances in Neural Information Processing Systems 15. Cambridge, MA: MIT Press, 2003:961-968.
[13] MATSUMURA A, TAKASU A, ADACHI J. Effect of relationships between words on Japanese information retrieval[J]. ACM Transactions on Asian Language Information Processing, 2006, 5(3): 264-289.
[14] ANH V N, de KRETSER O, MOFFAT A. Vector-space ranking with effective early termination[C]// Proceedings of the 24th Annual International ACM SIGIR Conference on Research and development in information retrieval. New York: ACM Press, 2001: 35-42.
[15] 朱礼军. 万维网环境下基于领域知识的信息资源管理模式研究[D]. 北京:中国农业大学,2004.
[16] ZHONG Han, CHEN Jian-hui, KOTAKE T, et al. Developing a Brain Informatics provenance model[C]// Brain and Health Informatics: LNCS Vol 8211. Berlin Springer, 2013:439-449.
[17] LIANG Pei-peng, ZHONG Ning, LU Sheng-fu, et al. ERP characteristics of sentential inductive reasoning in time and frequency domains[J]. Cognitive Systems Research, 2010, 11(1): 67-73.
[18] ZHONG Ning, LIANG Pei-peng, QIN Yu-lin, et al. Neural substrates of data-driven scientific discovery: an fMRI study during performance of number series completion task[J]. Science China Life Sciences, 2011, 54(5): 466-473.
[19] GÄRDIN A, BRISMAR T B, MOVIN T, et al. Dynamic contrast enhanced magnetic resonance imaging in chronic Achilles tendinosis[J]. BMC Medical Imaging, 2013,13:39.
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