| 摘要: |
| 【目的】 基于微服务架构重构科研院所门户网站,应对新兴媒体普及在信息传播方式、安全性、和扩展性的挑战。【方法】 文章在全面梳理微服务架构理念、技术及国内外应用现状的基础上,提出一种基于微服务架构的科研信息传播及管理解决方案,通过微服务架构与分布式协同管理机制,将内容管理系统(CMS)、流媒体管理系统、统一身份认证系统及全文搜索引擎深度融合,以提升平台的可扩展性、灵活性和处理能力。以中国农业科学院门户网站为例,探索了微服务架构和分布式协同管理机制在科研门户网站集成应用的方式与策略,实现了门户网站所依托的内容管理系统、流媒体管理和全文搜索引擎的协同工作。【结果】 该方案使中国农业科学院门户网站的响应速度提升40%,日均访问量增长至1.5万人次,视频资源库访问量占比达40%。【结论】 研究所提供的创新性解决方案能够解决当前科研院所门户网站在信息传播方面的瓶颈,提升用户体验与平台安全性,为科研信息的快速传播与应用提供支撑。 |
| 关键词: 科研信息传播平台 流媒体管理 微服务 分布式协同管理 |
| DOI:10.12105/j.issn.1672-0423.20250108 |
| 分类号: |
| 基金项目:中国农业科学院基本科研业务费专项院级统筹项目“基于全媒体大数据的农业科技资源调查、分析与数据研究”(Y2025JC30);河南省重点研发专项项目“基于大数据与可解释人工智能的农业智能知识服务关键技术与应用示范”(241111211100) |
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| Reconstruction of agricultural scientific research information dissemination platform based on microservice architectureA case of the portal website of Chinese Academy of Agricultural Sciences |
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Wang Dan, Zhao Ruixue, Sun Yang, Wang Jian, Tu Yuanyuan, Xie Hui
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Agricultural Information Institute,Chinese Academy of Agricultural Sciences,Beijing 100081,China
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| Abstract: |
| [Purpose] Reconstructing research institute portals based on a microservices architec-ture to cope with the challenges of the popularity of emerging media in information dissemination methods,security,and scalability.[Method] This study proposed a scientific information dissemination and management solution based on a microservices architecture. Building on a comprehensive review of microservices architecture concepts,technologies,and their applications domestically and internationally,the solution integrated a content management system(CMS),streaming media management system,unified identity authentication system,and full-text search engine through microservices architecture and a distributed collaborative management mechanism. This integration aimed to enhance the platform′s scalability,flexibility,and processing capabilities. Taking the Chinese Academy of Agricultural Sciences(CAAS)portal website as an example,the study explored strategies for applying microservices architecture and distributed collaborative management mechanisms to integrate scientific research portals. This approach achieved coordinated operations among the CMS,streaming media management,and full-text search engine supporting the portal.[Result] Application and demonstration results showed that the solution improved the response speed of the CAAS portal by 40%,increased daily visits to 15 000,and raised video resource library traffic to 40% of total visits.[Conclusion] The innovative solution addresses bottlenecks in the information dissemination for research institution portals,enhances user experience and platform security,and supports the rapid dissemination and application of scientific information. |
| Key words: scientific research information dissemination platform streaming media manage-ment microservices distributed collaborative management |
