Research on the Formation Path of Big Data Value:A Biological Analogy
Wang Nan1, 2, Li Tianzhu3, Cao Shuoyang3, Zhang Wei4
1. College of Economics and Management, Nanjing University of Aeronautics and Astronautics, Nanjing 211106, China; 2. China Center for Aerospace Science and Technology International Communications, Beijing 100048, China; 3. School of Business Administration, University of Science and Technology Liaoning, Anshan 114051, China; 4. School of Economics and Statistics, Guangzhou University, Guangzhou 510006, China
Abstract:The formation process of big data value has remarkable species characteristics.With the help of species theory in biology, four typical formation paths of big data value are extracted, which are cumulative breakthrough, application transfer, transboundary implantation and fusion innovation, so as to build a transformation bridge between abstract principle and concrete operation of big data value mining.Based on the analysis results, this paper further provides management inspiration for big data innovators in China from the aspects of data management system, data fusion opportunities, data application field transfer, value mining concept and so on.
王楠, 李天柱, 曹硕洋, 张伟. 大数据价值的形成路径研究:一个生物学类比[J]. 中国科技论坛, 2020(10): 142-149.
Wang Nan, Li Tianzhu, Cao Shuoyang, Zhang Wei. Research on the Formation Path of Big Data Value:A Biological Analogy. , 2020(10): 142-149.
[1]REN C G,RITA F.Paths toward radical service innovation in manufacturing companies:a service-dominant logic perspective[J].Journal of product innovation management,2018,35(5):701-719. [2]曾锵.大数据驱动的商业模式创新研究[J].科学学研究,2019,37(6):1142-1152. [3]郝雅丽,温志强.共建共治共享:大数据支持下共享单车智能化治理路径[J].管理评论,2019,31(1):249-254. [4]维克托·迈尔-舍恩伯格,肯尼思·库克耶.大数据时代——生活、工作与思维的大变革[M].盛杨燕,周涛,译.杭州:浙江人民出版社,2012. [5]DESAMPARADOS B,JOSEP D.Big data sources and methods for social and economic analyses[J].Technological forecasting & social change,2018,130:99-113. [6]FURTADO L,DUTRA M,MACEDO D.Value creation in big data scenarios:a literature survey[J].Journal of industrial integration and management,2017,2(1):1-17. [7]李天柱,马佳,吕健露,等.大数据价值孵化机制研究[J].科学学研究,2016,34(3):321-329. [8]陈国清,吴刚,顾远东,等.管理决策情境下大数据驱动的研究和应用挑战——范式转变与研究方向[J].管理科学学报,2018,21(7):1-10. [9]李天柱,王圣慧,马佳.基于概念置换的大数据定义研究[J].科技管理研究,2015,35(12):173-177. [10]朱凤清.论科学中的价值[J].自然辩证法研究,2018,34(4):113-117. [11]同号文.物种形成方式及成种理论述评[J].古生物学报,1997,36(3):387-400. [12]宋艳,银路.新兴技术的物种特性及形成路径研究[J].管理学报,2007,4(2):211-212. [13]MAYR E.Animal species and evolution.[J].Eugenics review,1964,55(4):226. [14]YAQUB O.Serendipity:towards a axonomy and a taxonomy[J].Research policy,2018,47:169-179. [15]李天柱,马佳,梁萌萌,等.生物制药产业技术轨道变迁与机会分析[J].技术经济,2013,32(7):4-12. [16]常超一,曹春香,王桥,等.H1N1甲型流感全球航空传播与早期预警研究[J].科学通报,2010,55(12):1128-1133. [17]BAJARDI P,CHIARA P,RAMASCO J J,et al.Human mobility networks,travel restrictions,and the global spread of 2009 H1N1 pandemic[J].Plos one,2011,6(1):1-8.
2020, 
