智慧生态视角下高校图书馆智慧服务要素耦合及其场景化应用

doi:10.13998/j.cnki.issn1002-1248.26-0163

摘要/Abstract

摘要：

[目的/意义] 在“十五五”时期数字化与智能化持续推进的背景下，从智慧生态视角出发，梳理高校图书馆智慧服务的核心构成，构建要素耦合机制及其场景化应用框架，以期为智慧服务系统建设与实践优化提供参考。 [方法/过程] 基于智慧服务生成的运行逻辑，本文将高校图书馆智慧服务界定为由用户、数据、技术与服务4类核心要素构成的动态系统，并分析其相互作用与耦合机制。在此基础上，结合服务系统理论与情境感知思想，构建资源导航、学习支持、科研辅助与虚拟交互4类典型应用场景，并以山东大学图书馆为例开展实践分析。 [结果/结论] 研究表明，智慧服务呈现多要素协同作用的生态特征，用户、数据、技术与服务在交互中形成动态网络，共同驱动服务生成与优化。本文构建的要素耦合及其场景化应用分析框架具有较好的解释力和实践适用性，可为高校图书馆推进智慧服务体系建设、优化服务模式与提升服务效能提供参考。

关键词: 智慧生态, 智慧图书馆, 要素耦合, 场景化应用, “十五五”规划, 人工智能

Abstract:

[Purpose/Significance] Because of the rapid digitalization and intelligentization during China's 15th Five-Year Plan period, university libraries are undergoing a profound transformation from traditional resource-oriented service institutions to integrated smart service systems. Although considerable progress has been made in the development of smart libraries, the existing studies are mainly concerned with specific technologies, functional modules, or localized service innovations. Therefore, insufficient attention is given to the internal structure of smart service systems and to the mechanisms through which different service elements interact to generate service value. As a consequence, the practical applications often suffer from fragmented element configurations and inadequate integration between service design and application scenario. To address these issues, this study introduces the perspective of smart ecosystem for exploring the basic composition and operational logic of smart services in university libraries. By constructing an analytical framework of element coupling and its scenario-based applications, this study seeks to surpass the technology-centered and function-centered approaches so as to provide a systematic explanation for the design, operation, and evolution of smart service systems. This framework is expected to deepen the theoretical understanding of smart library services and offer practical inspirations for university libraries in building sustainable and adaptive service ecosystems. [Method/Process] In this study, smart library services were regarded as a dynamic process consisting of demand generation, information representation, technological processing, service delivery, and feedback optimization. On this basis, smart services were broken down into four main categories: users, data, technology, and services. Then, the analysis was conducted in their interaction, coupling relationship, and dynamic reconfiguration mechanism. Instead of regarding smart services as a simple aggregation of technologies or service functions, this study emphasizes the networked relationships among the four categories. It identifies several basic coupling modes, including user-data coupling, data-technology coupling, technology-service coupling, and user-service coupling, and further extends them into a multi-element network structure with continuous interaction and feedback. Based on the correspondence between the user needs and the service generation process, four representative application scenarios were constructed: resource navigation, learning support, research assistance, and virtual interaction. Methodologically, this study combined theoretical analysis and case study. Shandong University Library was selected as the empirical case because of its continuous exploration of smart service innovation. By examining the practical applications, this study analyzes how the proposed coupling mechanisms were implemented in different scenarios. [Results/Conclusions] The findings indicate that smart services in university libraries are essentially ecosystem-based processes involving the collaboration of multiple parties, rather than merely technological outputs. Users, data, technology, and services interact to form a dynamic network, in which the service generation emerges from the continuous coupling and reconfiguration of multiple elements. Different service scenarios present different dominant coupling structures. Resource navigation mainly relies on the interaction among users, data, and technology to enhance knowledge discovery and resource matching; the learning support emphasizes the multi-element collaboration throughout the learning process; the research assistance reflects the integration of data and technological capabilities driven by user needs; and the virtual interaction highlights the role of technology empowerment in improving service accessibility. The case of Shandong University Library shows that the analytical framework proposed in this study can effectively explain the evolutionary process of smart services from element coupling to scenario construction and, ultimately, to ecosystem coordination. Nevertheless, this study still has certain limitations. As the empirical analysis is mainly based on a single institutional case, the discussion of large-scale inter-organizational collaboration is still limited. Future research may further explore the collaborative smart service ecosystems among multiple libraries, the advanced data governance mechanisms, and the deeper integration of artificial intelligence and emerging technologies. Such research will help enhance the adaptability, sustainability, and overall effectiveness of smart service systems in university libraries.

Key words: smart ecosystem, smart library, element coupling, scenario-based application, 15th Five-Year Plan, AI

中图分类号: G250.7

富国瑞, 韩叮咚, 王宏业. 智慧生态视角下高校图书馆智慧服务要素耦合及其场景化应用[J/OL]. 农业图书情报学报. https://doi.org/10.13998/j.cnki.issn1002-1248.26-0163.

FU Guorui, HAN Dingdong, WANG Hongye. Element Coupling of Smart Services in University Libraries and Its Scenario-based Applications from the Perspective of Smart Ecosystem[J/OL]. Journal of library and information science in agriculture. https://doi.org/10.13998/j.cnki.issn1002-1248.26-0163.

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要素类型	基本内涵	主要内容	功能定位
用户要素	用户是智慧服务生成与优化的重要主体	包括基础需求、发展性需求与潜在需求；通过用户生成内容、协同标注、服务评价等方式参与服务改进	构成智慧服务的需求起点与反馈来源，决定服务设计方向与优化
数据要素	数据是连接用户需求、技术处理与服务输出的关键媒介	包括资源数据、行为数据与环境数据；经整合、清洗、语义标引、模型构建等治理过程转化为知识	支撑用户画像、资源推荐、空间管理、服务评估与知识发现
技术要素	技术是智慧服务运行的基础设施与能力底座	包括感知层、计算层与交互层，分别实现信息采集、数据分析与服务交互	支撑内容推荐、智能问答、空间调度与虚拟交互，决定服务实现边界
服务要素	服务是用户需求、数据资源与技术能力综合作用的结果	包括基础服务、拓展服务与创新服务，并在具体情境中动态生成与持续优化	实现资源价值向用户价值转化，是智慧服务效能的集中体现

耦合模式	核心含义	实现方式	典型功能
“用户-数据”耦合	通过数据持续识别和表达用户需求	分析借阅记录、检索行为、学习轨迹等数据，形成用户画像与兴趣模型	支撑需求预测、资源推荐、扩展阅读推送与学习资源匹配
“数据-技术”耦合	数据提供对象表征，技术完成处理转化	依托物联网、传感网络、知识图谱、机器学习等技术，对资源、空间与行为数据进行建模分析	支撑情境感知、动态推荐、空间调度与环境优化
“技术-服务”耦合	技术嵌入服务流程，推动服务功能集成与重构	通过统一接口、系统架构和身份认证，实现不同服务模块的联通与调用	支撑座位预约提醒、跨平台学习支持、智能问答与连续服务体验
“用户-服务”耦合	用户不仅接受服务，也反向参与服务内容塑造	通过服务评价、资源标注、UGC、开放API与读者社群等机制参与服务改进	支撑服务共建、知识共享、文化共创与服务边界拓展