Research Article
Construction of a Smart Service Cloud Platform for Readers in University Libraries
@INPROCEEDINGS{10.4108/eai.15-12-2023.2345410, author={Qiuting Xu}, title={Construction of a Smart Service Cloud Platform for Readers in University Libraries}, proceedings={Proceedings of the 3rd International Conference on Public Management and Big Data Analysis, PMBDA 2023, December 15--17, 2023, Nanjing, China}, publisher={EAI}, proceedings_a={PMBDA}, year={2024}, month={5}, keywords={university library; smart services; cloud platform; structure}, doi={10.4108/eai.15-12-2023.2345410} }
- Qiuting Xu
Year: 2024
Construction of a Smart Service Cloud Platform for Readers in University Libraries
PMBDA
EAI
DOI: 10.4108/eai.15-12-2023.2345410
Abstract
In order to improve the service level of university libraries, the cloud service mechanism based on cloud computing has met the needs of the vast majority of readers. The library industry has gradually introduced this model to build a cloud service platform, in order to provide readers with more convenient, efficient, and intelligent reading services. This paper introduces cloud computing and its core competitiveness, analyzes the outstanding advantages of cloud service platforms in reader services of university libraries, and proposes several feasible strategies for the construction of cloud service platforms. A cloud computing based network service platform allows users to experience digital reading through service structure design, function optimization, mode construction, and other links, building a bridge for communication and communication between readers and libraries. This platform can provide readers with one-stop information services such as literature search, borrowing, renewal, information release, and new book introduction. Users can access relevant literature resources and services through multiple carriers and forms of operation without time and space constraints. A cloud computing based network service platform can utilize the Internet and 5G communication technology to improve information transmission efficiency, expand literature information service channels, and provide readers with more efficient, stable, and fast cloud knowledge services.