摘要
文章基于系统动力学的智库知识服务发展机制理论模型,以中国科学技术协会为例,借助VensimPLE软件识别模型中的关键要素及相互关系,建立适用于中国特色新型智库知识服务发展机制的仿真模型,这对验证模型的可行性和有效性具有重要的理论与实践意义。仿真分析结果显示:该修正模型是由客户知识服务需求、智库知识服务能力、智库知识服务创新思想和智库知识服务生态系统等四个关键要素组成。其中,客户知识服务需求是智库知识服务发展的驱动力,推动智库知识服务创新思想的产生和知识服务能力的提升;智库知识服务能力是满足客户知识服务需求和产生智库知识服务创新思想的保障条件,是通过应用各种知识服务模式培育的;智库知识服务生态系统是推动智库知识服务可持续发展的统一整体,且通过智库知识服务创新思想不断向客户提供专业化、全球化和品牌化的知识服务,促进客户不断产生新的知识服务需求。
This paper proposes a revised theoretical model of think tanks’knowledge service development mechanism based on system dynamics.Taking China Association for Science and Technology for example,and with the help of Vensim PLE,it tries to identify the key elements in the model and their interrelationships,aiming to establish a simulation model which is applicable to the knowledge service development mechanism of new think tanks with Chinese characteristics.The simulation analysis shows that the revised model is composed of four key elements,i.e.,customers’knowledge service demand,think tanks’knowledge service capability,knowledge service innovative ideas,and knowledge service ecosystem.Customers’knowledge service demand is the driving force of think tanks’knowledge service development,which keeps pushing the generation of innovative ideas and the lift of think tanks’knowledge service capability.Think tanks’knowledge service capability,which is cultivated through the application of various knowledge service patterns,is the guaranteeing condition for satisfying customers’knowledge service demands as well as generating innovative ideas.Think tanks’knowledge service ecosystem is the unified whole that promotes the sustainable development of think tanks’knowledge service.Think tanks continuously provides specialized,globalized and branded knowledge services for customers through innovative ideas,and promotes customers to continuously generate new knowledge service demands.
作者
许媛
申静
XU Yuan;SHEN Jing
出处
《图书馆论坛》
CSSCI
北大核心
2024年第7期72-83,共12页
Library Tribune
基金
国家社科基金重点项目“创新驱动的中国特色新型智库知识服务发展机制研究”(项目编号:18ATQ004)研究成果。
关键词
中国智库
知识服务
发展机制
系统动力学
仿真分析
Chinese think tanks
knowledge service
development mechanism
system dynamics
simulation analysis
