[1] Semantic Scholar. Semantic Scholar -a free, AI-powered research tool for scientific literature[EB/OL].[2022-06-06]. https://www.semanticscholar.org/. [2] LEE J, KIM G, YOO J, et al. Training IBM Watson using automatically generated question-answer Pairs[EB/OL].[2022-06-06]. https://doi.org/10.48550/arXiv.1611.03932. [3] FIORINI N, LEAMAN R, LIPMAN D, et al. How user intelligence is improving PubMed[J].Nature biotechnology,2018,36(10):937-945. [4] AALBERSBERG I J, STAINES H, WAARD A D, et al. STM trends 2026[EB/OL].[2022-06-06].https://www.stm-assoc.org/standards-technology/stm-trends-26/. [5] 新华社.国务院印发《新一代人工智能发展规划》[EB/OL].[2022-06-06].http://www.gov.cn/zhengce/content/2017-07/20/content_5211996.htm. [6] 新华社.中华人民共和国国民经济和社会发展第十四个五年规划和2035年远景目标纲要[EB/OL].[2022-06-06].http://www.xinhuanet.com/2021-03/13/c_1127205564.htm. [7] 袁润,王丹.近二十年国内图书馆知识服务研究综述[J].图书情报研究,2020,13(3):77-85. [8] 刘鹏瑞.近30年国际图书情报领域知识服务研究可视化分析[J].江苏科技信息,2020,37(16):16-20. [9] 柯平.后知识服务时代的图书馆服务创新[J].高校图书馆工作,2020,40(1):1-8. [10] 熊莉君,连书勤,张灿."5G+人工智能"的大数据知识服务体系构建研究[J].图书馆理论与实践,2022(3):58-63,85. [11] 张晓林.颠覆性变革与后图书馆时代——推动知识服务的供给侧结构性改革[J].中国图书馆学报,2018,44(1):4-16. [12] 段楠.从图谱搜索看搜索技术的发展趋势[J].中国计算机学会通讯,2013(8):74-77. [13] Springer Nature.SN SciGraph-a linked open data platform for the scholarly domain[EB/OL].[2022-06-06].https://www.springernature.com/gp/researchers/scigraph. [14] SIEBERT M. How AI and knowledge graphs can make your research easier[EB/OL].[2022-06-06].https://www.elsevier.com/connect/how-ai-and-knowledge-graphs-can-make-your-research-easier. [15] BEATTY S. Scopus makes strides in data linking[EB/OL].[2022-06-06]. https://blog.scopus.com/posts/scopus-makes-strides-in-data-linking. [16] DataCite. DataCite's value[EB/OL].[2022-06-06].https://datacite.org/value.html. [17] Dryad. Dryad Platform[EB/OL].[2022-06-06].https://datadryad.org/stash/our_platform. [18] 张颖.美国研究型图书馆研究数据服务的实践进展及趋势[J].图书情报工作,2017,61(9)33-41. [19] Max Planck Society. Research services[EB/OL].[2022-06-06]. https://www.mpg.de/research-services. [20] MAYERNIK M S, PHILLIPS J, NIENHOUSE E. Linking publications and data:challenges, trends, and opportunities[EB/OL].[2022-06-10]. https://www.dlib.org/dlib/may16/mayernik/05mayernik.html. [21] 张鑫,文奕,杨宁,等.基于引文探针的文献与数据的关联算法与应用——以高能物理领域为例[J].情报理论与实践,2019,42(10):151-156. [22] 孙文佳,常娥.科学数据与科技文献关联分析[J].图书馆理论与实践,2017(3):49-53. [23] Elsevier. Trust in research[EB/OL].[2022-06-10]. https://www.elsevier.com/connect/trust-in-research. [24] Semantic Scholar. Semantic Scholar TLDR[EB/OL].[2022-06-10]. https://www.semanticscholar.org/product/tldr. [25] aiReview.智能综述AIreview[EB/OL].[2022-06-10].http://www.aireview.online/. [26] Paper Digest. About us[EB/OL].[2022-06-10].https://www.paperdigest.org/aboutus/. [27] Springer Nature.Nature research intelligence[EB/OL].[2022-06-10]. https://www.nature.com/research-intelligence/nature-navigator.html. [28] Open Knowledge Maps. About us[EB/OL].[2022-06-10].https://openknowledgemaps.org/about. [29] Connected Paper. About us[EB/OL].[2022-06-10].https://www.connectedpapers.com/about. [30] Research rabbit. Research rabbit[EB/OL].[2022-06-10].https://www.researchrabbit.ai. [31] FERGUSON C, ARAUJO D, FAULK L, et al. Europe PMC in 2020[J].Nucleic acids research, 2021,49(D1):D1507-D1514. [32] 张鹤,黄倩.多模态信息融合的知识服务[J].中国科技资源导刊,2016,48(6):50-54. [33] ZHU X,LI Z, WANG X, et al. Multi-modal knowledge graph construction and application:a survey[EB/OL].[2022-06-10].https://arxiv.org/abs/2202.05786v1. [34] 阮光册,夏磊,周萌葳.跨媒体智能视角下的知识服务探析[J].情报理论与实践,2021,44(7):79-85. [35] 柳益君,何胜,熊太纯,等.面向资源的图书馆跨媒体知识服务——特征、路径和创新服务[J].图书馆,2020(10):34-39. [36] U.S. National Library of Medicine. A platform for biomedical discovery and data-powered health strategic plan 2017-2027[EB/OL].[2022-06-10].https://www.nlm.nih.gov/pubs/plan/lrp17/NLM_StrategicReport2017_2027.pdf. [37] 彭以祺.国家科技文献保障工作的形势与NSTL"十四五"规划[J].数字图书馆论坛,2021(5):2-7. [38] 刘细文.中国科学院文献情报中心"十四五"发展思考——基于数据、信息、知识与情报的规划框架设计[J].数字图书馆论坛,2021(5):12-16. [39] 张晓林.研究图书馆2020:嵌入式协作化知识实验室[J].中国图书馆学报,2012,38(1):11-20. [40] 张智雄.高端交流平台建设需要把握知识服务的发展大势[J].智库理论与实践,2021,6(1):5-6,9. [41] BRENNAN P. Help NLM and NIH shape a data-driven future[EB/OL].[2022-06-10].https://nlmdirector.nlm.nih.gov/2018/03/06/help-nlm-and-nih-shape-a-data-driven-future/. [42] EOSC. European Open Science Cloud[EB/OL].[2022-06-10].https://eosc-portal.eu/about/eosc. [43] ASSANTE M, CANDELA L, CASTELLI D, et al. Enacting open science by D4Science[J].Future generation computer systems,2019,101:555-563. [44] OpenAIRE. OpenAIRE in EOSC[EB/OL].[2022-06-10].https://www.openaire.eu/openaire-and-eosc. [45] 黄永文,孙坦,赵瑞雪,等.科学数据与学术文献关联服务的研究与实现[J].图书情报工作,2021,65(23):116-125. [46] 曹雨晴,鲜国建,黄永文,等.全景式多路径知识图谱构建研究——以水稻粒型基因领域为例[J].数字图书馆论坛,2022(4):25-34. [47] 张智雄,刘欢,于改红.构建基于科技文献知识的人工智能引擎[J].农业图书情报学报,2021,33(1):17-31. [48] YU G H, ZHANG Z X, LIU H, et al. Masked sentence model based on BERT for move recognition in medical scientific abstracts[J].Journal of data and information science,2019,4(4):42-55. [49] 王雪,杜建,杨雪梅,等.生物医学突破性研究自动识别方法构建[J].中华医学图书情报杂志,2020,29(1):66-71. [50] 罗家豪,孙巍.基于专利价值的技术成熟度测度与分析方法研究[J].数字图书馆论坛,2022(1):17-25. |