Artificial Intelligence Technology in Library Scientific Research Support Service

<p>Ming Fang</p>

doi:10.25236/FER.2025.080525

Frontiers in Educational Research, 2025, 8(5); doi: 10.25236/FER.2025.080525.

Artificial Intelligence Technology in Library Scientific Research Support Service

Author(s)

Ming Fang

Corresponding Author:

Ming Fang

Affiliation(s)

Library, University of Shanghai for Science and Technology, Shanghai, 200093, China

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Abstract

This paper summarizes the path and method of applying artificial intelligence technology in library scientific research support service. Through the analysis of relevant research situation at home and abroad, this paper discusses its specific application path from six aspects, such as scientific research information retrieval, personalized recommendation and scientific research consultation, and analyses the existing difficulties, countermeasures and development trend. Applying artificial intelligence technology to library scientific research support service is a huge upgrade and innovation of university library service, which will greatly improve the efficiency and quality of library scientific research support service.

Keywords

Artificial Intelligence; Library Scientific Research Supports; Research Innovation

Cite This Paper

Ming Fang. Artificial Intelligence Technology in Library Scientific Research Support Service. Frontiers in Educational Research (2025), Vol. 8, Issue 5: 171-176. https://doi.org/10.25236/FER.2025.080525.

References

[1] Gomez, C., Guardia, A., Mantari, J. L., Coronado, A. M., & Reddy, J. N. (2022) A contemporary approach to the MSE paradigm powered by Artificial Intelligence from a review focused on Polymer Matrix Composites. Mechanics of Advanced Materials and Structures, 29(21).

[2] Rubin, V. L., Chen, Y., & Thorimbert, L. M. (2010) Artificially intelligent conversational agents in libraries. Library Hi Tech, 28(4).

[3] Bao, J., Song, Y. F., Du, P. P., & Wang, J. (2018) Design and Practice of Intelligent Service Robot in University Library - Taking the Library of China University of Mining and Technology as an Example. Modern Intelligence, 38(10): 115-120.

[4] Zhang, Y., et al. (2023) Evaluating international impact of Chinese research outputs via AI analysis. Scientometrics, 128(3), 1457-1475.

[5] Hinton, G., et al. (2022) SciLens: Predicting emerging research trends using graph neural networks. Nature Machine Intelligence, 4(11), 876-885.

[6] Gupta, R., & Johnson, M. (2021, July) Dual-BERT model for laboratory log classification. In Proceedings of the ACM/IEEE Joint Conference on Digital Libraries (pp. 123-134). IEEE.

[7] Smith, J., et al. (2023) Intelligent collaborator matching in academic databases. Proceedings of the ASIS&T Annual Meeting, 60(1), 1-9.

[8] E, Lijun, & Cai, Lijing. (2015) Content introduction and characteristics analysis of research support services in foreign university libraries. Library Journal, 34(01): 82-86 + 42.

[9] Si, Li, & Zeng, Yueliang. (2018) Investigation and analysis of scientific research support services in world-class university libraries. Library and information work, (8): 30-39.

[10] Mahdi Zahedi Nooghabi, & Akram Fathian Dastgerdi. (2016) Proposed metrics for data accessibility in the context of linked open data. Program, 50(2).

[11] Beel, J., Gipp, B., & Wilde, E. (2010) Academic Search Engine Optimization (ASEO): Optimizing Scholarly Literature for Platforms Like Google Scholar. Journal of Scholarly Publishing, 41(2), 176-190.

[12] Jiafeng Guo, Yixing Fan, Liang Pang, Liu Yang, Qingyao Ai, Hamed Zamani, Chen Wu, W. Bruce Croft, & Xueqi Cheng. (2019) A Deep Look into neural ranking models for information retrieval. Information Processing and Management.

[13] Cox, A. M., Stephen, P., & Sophie, R. (2019) The intelligent library: thought leaders’ views on the likely impact of artificial intelligence on academic libraries. Library Hi Tech, 37, 418-435.

[14] Allison, D. (2012) Chatbots in the library: Is It Time? Library Hi Tech, 1, 95-107.

[15] Ali, S. M. (2019) Bots in libraries: they’re coming for your jobs (or Is It?). Research Collection Library, 14, 1-21.

[16] Gu, Chaorui, & Hu, Zhigang. (2020) Analysis and Prospect of the Application of Artificial Intelligence Technology in the Construction of "Smart Campus" under the Background of Big Data. Digital Communication World.

[17] Cao, Xiaoming. (2018) "Intelligence +" School: A New Paradigm of School Development under the Perspective of Education Informatization 2.0. Journal of Distance Education.

[18] Research Data Management Policy. [EB/OL]. [2024-03-25]. https://intranet.birmingham. ac.uk/as/libraryservices/library/research/rdm/policies/research-data-management-policy.aspx.

[19] Noy, S., & Zhang, W. (2023) Experimental evidence on the productivity effects of generative artificial intelligence. Science, 380(6647), 821-825.

[20] European Parliament. (2019) "A Governance Framework for Algorithmic Accountability and Transparency",3.9.4. https://www.europarl.europa.eu/RegData/etudes/STUD/2019/624262/EPRS_STU(2019)624262_EN.pdf.

[21] Grimes, M., von Krogh, G., Feuerriegel, S., Rink, F., & Gruber, M. (2023). From Scarcity to Abundance: Scholars and Scholarship in an Age of Generative Artificial Intelligence. Academy of Management Journal, 66(6), 1617-1624.

[22] Zhang, Q., et al. (2021) AI-enhanced exoplanet detection with Kepler data. The Astrophysical Journal, 921(2), 78.

[23] Chen, T., et al. (2023) Multimodal fusion framework for materials discovery. Science, 379(6638), 1052–1056.