产学研合作创新网络拓扑演化的复杂网络研究

doi:10.13306/j.1672-3813.2020.04.005

复杂系统与复杂性科学

2020, Vol. 17

Issue (4): 38-47 DOI: 10.13306/j.1672-3813.2020.04.005

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产学研合作创新网络拓扑演化的复杂网络研究

吴慧^a, 顾晓敏^a, 赵袁军^b

上海立信会计金融学院 a.金融科技学院; b.工商管理学院,上海 201209

Research on Complex Networks Based on the Topological Evolution of Industry-University-Research Cooperative Innovation Networks

WU Hui^a, GU Xiaomin^a, ZHAO Yuanjun^b

a. School of Financial Technology; b. School of Business Administration, Shanghai Lixin University of Accounting and Finance, Shanghai 201209, China

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摘要通过对中国医药制造业产学研合作创新网络进行复杂网络分析,探究网络的演化及小世界性对合作创新网络创新绩效的影响。首先通过复杂网络分析得出中国医药制造业产学研合作创新网络具有无标度网络特性,且上海医药制造业的6个凝聚子群之间的开放度和交流频率有利于创新的形成和传播;其次运用QAP回归分析得出小世界性对上海市产学研合作创新网络的创新绩效会产生一定不利影响。最后通过以上分析提出相应的对策建议。

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关键词 ：产学研合作创新网络, 医药制造业, 复杂网络, 小世界性, 拓扑演化

Abstract：This study is devoted to the complex network analysis of China pharmaceutical manufacturing industry-university-research cooperative innovation network, to explore the evolution of the network and the impact of small world on the innovation performance of cooperative innovation network. Firstly, through complex network analysis, this study concludes that China′s pharmaceutical manufacturing industry-university-research cooperative innovation network has scale-free network characteristics, and the openness and communication frequency between the six cohesive subgroups of Shanghai pharmaceutical manufacturing industry are conducive to the formation of innovation and Communication; Secondly, using QAP regression analysis, this paper concludes that the small world has a certain adverse impact on the innovation performance of the Shanghai Industry-University-Research Cooperation Innovation Network. Finally, corresponding countermeasures and suggestions are put forward according to above analysis results.

Key words： Industry-University-Research cooperative innovation network pharmaceutical manufacturing industry complex network feature of small-world topological evolution

收稿日期: 2020-02-23 出版日期: 2020-12-21

ZTFLH:	F275.5
	F273.1
	F425

基金资助:国家社科基金青年项目(18CGL015)

通讯作者: 顾晓敏(1961-),女,浙江象山人,博士,教授,主要研究方向为创新绩效、金融科技。

作者简介: 吴慧(1990-),女,河南潢川人,博士,讲师,主要研究方向为合作网络、金融科技、创新绩效。

引用本文:

吴慧, 顾晓敏, 赵袁军. 产学研合作创新网络拓扑演化的复杂网络研究[J]. 复杂系统与复杂性科学, 2020, 17(4): 38-47.
WU Hui, GU Xiaomin, ZHAO Yuanjun. Research on Complex Networks Based on the Topological Evolution of Industry-University-Research Cooperative Innovation Networks. Complex Systems and Complexity Science, 2020, 17(4): 38-47.

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http://fzkx.qdu.edu.cn/CN/10.13306/j.1672-3813.2020.04.005 或 http://fzkx.qdu.edu.cn/CN/Y2020/V17/I4/38

[1] Szücs F. Research subsidies, industry-university cooperation and innovation[J]. Research Policy, 2018, 47(7): 1256-1266.
[2] 邹乐乐,陈佩佩,吴怡,等.中国清洁技术创新主体的合作特征及演化分析[J].科学学研究,2019,37(9):1702-1711.
Zou Lele,Chen Peipei,Wu Yi,et al.Research on the cooperative characteristics and evolution of subjects in China＇s innovation of clean technology[J].Studies in Science of Science,2019,37(9):1702-1711.
[3] 李晨光,赵继新.产学研合作创新网络随机交互连通性研究——角色和地域多网络视角[J].管理评论,2019,31(8):110-122.
Li Chenguang, Zhao Jixin. Percolation mechanism on university-industry cooperative network:network of networks perspective study on the role and geography[J].Management Review,2019,31(8):110-122.
[4] 王丽平,栾慧明.组织距离、价值共创与产学研合作创新绩效[J].管理学报,2019,16(5):704-711.
Wang Liping, Luan Huiming. Organization distance,value co-creation, and industry-university-research collaborative innovation performance[J]. Chinese Journal of Management,2019,16(5):704-711.
[5] Kim T, Sul W S, Lee Y, et al. Research for activation of new industry-university cooperation[J]. Journal of Digital Convergence, 2019, 17(12): 77-82.
[6] Seo B D, Park M K, Ju J Y, et al. Developing a core competence model for LINC (leaders in industry-university cooperation) at k-university: a case study[J]. International Journal of Software Engineering and Its Applications, 2016, 10(2): 171-180.
[7] Han S S, Yim D S. Path dependence in industry-university cooperation-in terms of industry’s voluntary participation[J]. International Journal of Industrial Distribution & Business, 2018, 9(3): 45-56.
[8] Wang X. Research on industry-university-research cooperative education of local normal universities in China from the perspective of teaching assessment[J]. Open Access Library Journal, 2019, 6(4): 1-11.
[9] 孙姝羽, 薛伟贤, 党兴华. 网络惯例情境下技术创新网络治理方式选择研究[J]. 科学学与科学技术管理, 2017, 38(8): 62-73.
Sun Shuyu, Xue Weixian, Dang Xinghua. Research on the choice of governance mode of technology innovation network under the circumstance of network routines[J]. Science of Science and Management of S & T, 2017, 38(8): 62-73.
[10] 彭晓芳, 吴洁, 盛永祥, 等. 创新生态系统中多主体知识转移生态关系的建模与实证分析[J]. 情报理论与实践, 2019, 42(9): 111.
Peng Xiaofang, Wu Jie, Sheng Yongxiang, et al. Model and empirical analysis on ecological relationship of multi-agents knowledge transfer in innovation ecosystem[J]. Information Studies:Theory & Application, 2019, 42(9): 111.
[11] 黄曼, 朱桂龙, 刘芳, 等. 基于三螺旋模型的产学研协同创新机制研究——以潜水设备行业为例[J]. 华南理工大学学报 (社会科学版), 2020, 22(1): 72-81.
Huang Man, Zhu Guilong, Liu Fang, et al. Study on collaborative innovation mechanism of university and industry research based on triple helix model—taking the diving equipment industry as an example[J]. Journal of South China University of Technology(Social Science Edition), 2020, 22(1): 72-81.
[12] 李丹, 杨建君. 关系状态, 信任, 创新模式与合作创新绩效[J]. 科研管理, 2018, 39(6): 103-111.
Li Dan, Yang Jianjun. Relationship status,trust,innovation mode and cooperative innovation performance[J]. Science Research Management, 2018, 39(6): 103-111.
[13] 王凯, 吴勇, 朱卫东. 开放式创新模式下企业创新资源整合能力的形成机理[J]. 科技管理研究, 2018, 38(1): 25-29.
Wang Kai, Wu Yong, Zhu Weidong. Formation mechanism of enterprise innovation resources integration ability under the open innovation model[J]. Science and Technology Management Research, 2018, 38(1): 25-29.
[14] Xie X, Fang L, Zeng S. Collaborative innovation network and knowledge transfer performance: a fsQCA approach[J]. Journal of Business Rresearch, 2016, 69(11): 5210-5215.
[15] Ghandour R M, Flaherty K, Hirai A, et al. Applying collaborative learning and quality improvement to public health: lessons from the collaborative improvement and innovation network (CoIIN) to reduce infant mortality[J]. Maternal and Child Health Journal, 2017, 21(6): 1318-1326.
[16] Ozman M, Llerena P. Strategic alliances and knowledge flows between firms[J]. The Economics of Creativity:Ideas, Firms and Markets, 2013, 60: 192-207.
[17] 游达明, 李志鹏, 杨晓辉. 高新技术企业创新网络能力对创新网络绩效的影响路径[J]. 科学学与科学技术管理, 2015,36(2): 70-82.
You Daming, Li Zhipeng, Yang Xiaohui. The influence path of high-tech enterprises innovation network capability on innovation network performance[J]. Science of Science and Management of S & T, 2015,36(2): 70-82.
[18] 边燕杰, 张展新. 市场化与收入分配——对1988年和1995年城市住户收入调查的分析[J]. 中国社会科学,2002 (5): 97-111,205.
Bian Yanjie, Zhang Zhanxin. Marketization and income distribution: analysis of the urban household income survey in 1988 and 1995[J].Social Sciences in China, 2002 (5): 97-111,205.
[19] 李长玲, 纪雪梅, 支岭. 基于社会网络分析的企业内部知识传播效率分析[J]. 情报理论与实践,2011, 34(10): 56-61.
Li Changling, Ji Xuemei, Zhi Ling. Analysis of internal knowledge transmission efficiency of enterprises based on social network analysis[J]. Information Studies:Theory & Application, 2011, 34(10): 56-61.
[20] Mills M, álvarez-Romero J G, Vance-Borland K, et al. Linking regional planning and local action: towards using social network analysis in systematic conservation planning[J]. Biological Conservation, 2014, 169: 6-13.
[21] Alexandrescu F M, Rizzo E, Pizzol L, et al. The social embeddedness of brownfield regeneration actors: insights from social network analysis[J]. Journal of Cleaner Production, 2016,139:1539-1550.
[22] Hyukjoon Kim,Yongtae Park. Structural effects of R＆D collaboration network on knowledge diffusion performance[J].Expert Systems with Applications,2009,36(5):8986-8992.
[23] Zhang D, Xie F, Zhang Y, et al. Fuzzy analysis of community detection in complex networks[J]. Physica A: Statistical Mechanics and Its Applications, 2010, 389(22): 5319-5327.
[24] 孙耀吾,卫英平. 高技术企业联盟知识扩散研究——基于小世界网络的视角[J]. 管理科学学报, 2011,14(12): 17-26.
Sun Yaowu, Wei Yingping. Study on knowledge diffusion of high-tech enterprise alliance from the small-world network perspective[J]. Journal of Management Sciences in China, 2011,14(12): 17-26.
[25] Zhang X, Fan J H. Research on industry-university-institute cooperation innovation-take high-end equipment manufacturing industry in Shanghai,China as an example [J].International Journal of Business and Social Science, 2014,5(5):101-110.
[26] M. Ozman. Inter-firm networks and innovation: a survey of literature [J]. Economics of Innovation and New Technology,2010,18(1): 39-67.

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