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New Technology of Library and Information Service  2015, Vol. 31 Issue (3): 92-100    DOI: 10.11925/infotech.1003-3513.2015.03.12
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Design and Implementation of Integrated Service System for STKOS Related Tools
Fang An1, Wu Sizhu1, Hong Na1, Qian Li2, Wang Ying2, Hu Jiahui1
1 Institute of Medical Information, Chinese Academy of Medical Sciences, Beijing 100020, China;
2 National Science Library, Chinese Academy of Sciences, Beijing 100190, China
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[Objective] Avoiding the repeat of tools construction, this paper aims to realize the efficient reusing and sharing of tools related to knowledge organization, which are outputs of Science and Technology Knowledge Organization System (STKOS). [Context] The Construction and Application Demonstration of Knowledge Organization System Oriented Foreign Scientific and Technical Literature Information is one of the National Science & Technology Pillar Program projects during the Twelfth Five-year Plan Period, which aims to construct a multilayer system of science, engineering, agriculture and medicine involving thesaurus, Ontology and category. During the construction of STKOS, a large number of tools are developed. [Methods] The Equinox OSGi core framework implementation is used to build a plug-in integrated service system for knowledge organization tools. Plug-in automatic packaging process is designed and implemented, tools and plug-ins are stored in files and databases, and a plug-ins allocation mechanism based on jBPM workflow is proposed in this paper. [Results] The construction of STKOS is completed, including the related tools storage and release system, the tools integration frame and components and the knowledge organization tools integration based on workflow. [Conclusions] The related tools integration, standardized management and sharing of STKOS are realized.

Key wordsSTKOS      Workflow      OSGi plug-in      Tools integration     
Received: 22 September 2014      Published: 16 April 2015
:  TP350  

Cite this article:

Fang An, Wu Sizhu, Hong Na, Qian Li, Wang Ying, Hu Jiahui. Design and Implementation of Integrated Service System for STKOS Related Tools. New Technology of Library and Information Service, 2015, 31(3): 92-100.

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[1] Unified Medical Language System [EB/OL]. [2014-11-24].
[2] EuroVoc [EB/OL]. [2014-11-27].
[3] AGROVOC Multilingual Agricultural Thesaurus [EB/OL]. [2014-11-27].­rovoc-multilingual-agricultural-thesaurus.
[4] Building an Integrated Formal Ontology for Semantic Interoperability in the Fishery Domain [EB/OL]. [2014- 11-24].
[5] Gangemi A, Pisanelli D M, Steve G. An Overview of the ONINS Project: Applying Ontologies to the Integrating of Medical Terminologies [J]. Data Knowledge Engineering, 1999, 31(2): 183-220.
[6] AGROVOC Concept Server Workbench [EB/OL]. [2014-11- 27]. http: //
[7] MetaMap - A Tool for Recognizing UMLS Concepts in Text [EB/OL]. [2014-11-27].
[8] 王兴兰, 宋文. 基于知识组织体系的自动分类研究 [J]. 图书馆论坛, 2013, 33(6): 8-13. (Wang Xinglan, Song Wen. Automatic Classification Based on Knowledge Organization System [J]. Library Tribune, 2013, 33 (6): 8-13.)
[9] 王莉, 梁冰, 白海燕. 以数据空间理念建立关系发现应用——NSTL智能检索平台的实践[J]. 数字图书馆论坛, 2014(6): 48-54. (Wang Li, Liang Bing, Bai Haiyan. Relationship Discovery Based on the Concept of Dataspace - A Case Study of NSTL Intelligent Retrieval Platform [J]. Digital Library Forum, 2014(6): 48-54.)
[10] 刘毅, 汤怡洁, 周子健, 等. 科技知识组织体系共享服务平台服务接口建设研究[J]. 现代图书情报技术, 2014(7-8): 9-16. (Liu Yi, Tang Yijie, Zhou Zijian, et al. Research and Construct of the Service Interface in STKOS Sharing Infrastructure [J]. New Technology of Library and Information Service, 2014(7-8): 9-16. )
[11] 孙坦, 刘峥. 面向外文科技文献信息的知识组织体系建设思路[J]. 图书与情报, 2013(1): 2-7. (Sun Tan, Liu Zheng. Methodology Framework of Knowledge Organization System for Scientific & Technological Literature [J]. Library & Information, 2013(1): 2-7. )
[12] Morel J M, Faget J. The REBOOT Environment [C]. In: Proceedings of the 2nd International Workshop on Software Reusability, 1993: 80-88.
[13] 杨芙清, 梅宏, 李克勤, 等. 支持构件复用的青鸟Ⅲ型系统概述[J]. 计算机科学, 1999, 26(5): 50-55. (Yang Fuqing, Mei Hong, Li Keqin, et al. An Introduction to JB3 System Support­ing Component Reues [J]. Computer Science, 1999, 26(5): 50-55.)
[14] Ye Y, Fischer G. Supporting Reuse by Delivering Task- Relevant and Personalized Information [C]. In: Proceedings of the 2002 International Conference on Software Engineering, Orlando, FL, USA. 2002: 513-523.
[15] Eclipse [OL]. [2014-09-01]. http: //
[16] 尹铨. 基于插件体系结构的软件生产线集成框架设计与实现 [D]. 北京: 国防科学技术大学, 2008. (Yin Quan. Design and Implementation of Integrated Framework of Software Production Line Based on Plugin Architecture [D]. Beijing: National University of Defense Technology, 2008.)
[17] LarKC: The Large Knowledge Collider [OL]. [2014-09-01].
[18] McAffer J, VanderLei P, Archer S. OSGi and Equinox: Creating Highly Modular Java Systems [M]. Addison-Wesley Educational Publishers, 2010.jBPM [OL]. [2014-09-01].

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