“互联网+”企业创新生态系统网络演化分析

doi:10.13306/j.1672-3813.2025.04.001

复杂系统与复杂性科学

2025, Vol. 22

Issue (4): 1-7 DOI: 10.13306/j.1672-3813.2025.04.001

复杂网络

本期目录 | 过刊浏览 | 高级检索

“互联网+”企业创新生态系统网络演化分析

周青, 李依函, 陈文冲

杭州电子科技大学数据科学与智能决策实验中心,杭州 310018

Evolution of “ Internet + ” Enterprise Innovation Ecosystem Network

ZHOU Qing, LI Yihan, CHEN Wenchong

Experimental Center of Data Science and Intelligent Decision-Making, Hangzhou Dianzi University, Hangzhou 310018, China

摘要
参考文献
相关文章
Metrics

全文: PDF(1594 KB)
输出: BibTeX | EndNote (RIS)

摘要为探索“互联网+”企业创新生态系统网络的演化特征与规律,给“互联网+”创新平台的治理提供理论与模型支撑,结合无标度网络理论和“互联网+”企业创新生态系统网络特征,构建混合择优机制作用的系统网络演化模型,通过仿真分析探讨不同择优机制对该系统网络演化的影响。结果表明,该“互联网+”系统中非核心企业与个体创新者的重要性增强,呈现出一定的去中心化演化特征,但也一定程度上破坏了网络的连通性,加大了主体间的合作成本。

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	周青
	李依函
	陈文冲

关键词 ： “互联网+”企业创新生态系统, 复杂网络理论, 网络演化, 混合择优机制, 仿真分析

Abstract：Exploring the evolution characteristics and laws of the “Internet +” enterprise innovation ecosystem network can provide theoretical and model support for the governance of the “Internet +” innovation platform. Based on the scale-free network theory and the network characteristics of the “Internet +” enterprise innovation ecosystem, this paper constructs a system network evolution model with mixed preferential mechanism, and discusses the influence of different preferential mechanisms on the network evolution of the system through simulation analysis.The results show that the importance of non-core enterprises and individual innovators in the “Internet +” system is enhanced, showing a certain degree of decentralization evolution, but it also destroys the connectivity of the network to a certain extent and increases the cost of cooperation between the subjects.

Key words： “internet +” enterprise innovation ecosystem complex network theory network evolution hybrid preferential mechanism simulation analysis

收稿日期: 2023-11-06 出版日期: 2025-12-10

ZTFLH:	F273.1
	F425

基金资助:浙江省软科学重点项目(2023C25033);浙江省哲学社会科学重大项目(21QNYC13ZD);国家自然科学基金面上项目(71873074)

通讯作者: 陈文冲(1990),男,江西上饶人,博士,副教授,主要研究方向为生产运营管理、复杂系统建模与优化。

作者简介: 周青(1979),男,湖南株洲人,博士,教授,主要研究方向为技术标准联管理、数字化创新管理。

引用本文:

周青, 李依函, 陈文冲. “互联网+”企业创新生态系统网络演化分析[J]. 复杂系统与复杂性科学, 2025, 22(4): 1-7.
ZHOU Qing, LI Yihan, CHEN Wenchong. Evolution of “ Internet + ” Enterprise Innovation Ecosystem Network[J]. Complex Systems and Complexity Science, 2025, 22(4): 1-7.

链接本文:

https://fzkx.qdu.edu.cn/CN/10.13306/j.1672-3813.2025.04.001 或 https://fzkx.qdu.edu.cn/CN/Y2025/V22/I4/1

[1]	杨伟,周青,郑登攀.“互联网+”创新生态系统:内涵特征与形成机理[J].技术经济,2018,37(7):1015.YANG W, ZHOU Q, ZHENG D P. “Internet +” innovationecosystem: connotation characteristics and formation mechanism[J].Journal of Technology Economics,2018,37(7):1015.
[2]	陈思睿,杨桂菊,王彤.后发企业的颠覆性创新机理模型——基于小米公司的探索性案例研究[J].管理案例研究与评论,2019,12(4):365382.CHEN S R, YANG G J, WANG T. The disruptive innovation mechanism model of latecomer firms-an exploratory case study based on Xiaomi[J].Journal of Management Case Studies, 2019,12(4):365382.
[3]	游鸽,郭昊,刘向.基于专利引文网络的技术演化网络模型与仿真分析[J].系统仿真学报,2021,33(3):591603.YOU G, GUO H, LIU X. Model and simulation analysis of technology evolution network based on patent citation network[J].Journal of System Simulation, 2021,33(3):591603.
[4]	余谦,刘嘉玲.技术邻近动态下创新超网络的演化机理研究[J].科学学研究,2018,36(5):946954.YU Q, LIU J L. Research on the evolution mechanism of innovationsupernetwork under the dynamic of technological proximity[J].Studies in Science of Science, 2018,36(05):946954.
[5]	曹兴,谭蒙盼.新兴技术知识耦合网络形成机制研究[J].情报杂志,2023,42(10):150156,123.CAO X, TAN M P. Research on the formation mechanism of emerging technology knowledge coupling network[J].Journal of Intelligence, 2023,42(10):150156,123.
[6]	姚月娇,刘向,余博文.多层图时序专利网络中的发明者影响力演变[J].复杂系统与复杂性科学,2023,20(3):3543.YAO Y J, LIU X, YU B W. Inventor influence evolution in multilayer graph temporal patentnetworks[J].Complex Systems and Complexity Science, 2023,20(3):3543.
[7]	杨力,刘敦虎,魏奇锋.共生理论下区域创新生态系统能级提升研究[J].科学学研究,2023,41(10):18971909.YANG L, LIU D H, WEI Q F. Research on the improvement of energy level of regional innovation ecosystem under symbiosis theory[J].Studies in Science of Science, 2023,41(10):18971909.
[8]	张鹏,菅利荣,王丹丹.共生网络视角下工业园生态转型治理机制研究[J].复杂系统与复杂性科学,2023,20(1):95104,110.ZHANG P, KAN L R, WANG D D. Research on the governance mechanism of ecological transformation of industrial parks from the perspective of symbiotic network[J].Complex Systems and Complexity Science, 2023,20(1):95104,110.
[9]	XU Y Y, SUN H, LYU X C.Analysis of decision-making for value co-creation in digital innovation systems: an evolutionary game model of complex networks[J].Managerial and Decision Economics,2023,44(5),28692884.
[10]	王倩,柳卸林.企业跨界创新中的价值共创研究:基于生态系统视角[J].科研管理,2023,44(4):1118.WANG Q, LIU X L. Research on value co-creation in cross-border innovation ofenterprises:based on the perspective of ecosystem[J].Science Research Management, 2023,44(4):1118.
[11]	FENNER T. LEVENE M, LOIZOU G. A model for collaboration networks giving rise to a power-law distribution with an exponential cutoff[J]. Social Networks,2007, 29(1):7080.
[12]	王发明,张赞.平台企业主导的创新生态系统稳定性研究:基于企业间网络关系视角[J].科技进步与对策,2021,38(8):2633.WANG F M, ZHANG Z. Research on the stability of innovation ecosystem dominated by platformenterprises: based on the perspective of inter-enterprise network relationship[J].Science & Technology Progress and Policy, 2021,38(8):2633.
[13]	GIERLICH-JOAS M, HESS T, NEUBURGER R. More self-organization, more control-or even both? Inverse transparency as a digital leadership concept[J]. BuR-Business Research, 2020, 13(3): 921947.
[14]	都大鹏.海尔生态管理实践探索[J].合作经济与科技,2023(5):107109.DU D P. Practice andexploration of ecological management in Haier[J].Co-operative Economy & Science, 2023(5):107109.
[15]	张建军,赵启兰.基于“互联网+”的产品供应链与物流服务供应链联动发展的演化机理研究——从“去中间化”到“去中心化”[J].商业经济与管理,2017(5):515.ZHANG J J, ZHAO Q L. Research on the evolution mechanism of the linkage development of product supply chain and logistics service supply chain based on “Internet +” from “de-intermediation” to “de-centralization”[J].Journal of Business Economics, 2017(5):515.
[16]	BARABÁSI A L, ALBERT R, JEONG H. Mean-field theory for scale-free random networksp[J]. Physica A: Statistical Mechanics and Its Applications, 1999,272(1/2), 173187.
[17]	顾桂芳,胡恩华,李文元.企业创新生态系统治理研究述评与展望[J].科技进步与对策,2017,34(5):156160.GU G F, HU E H, LI W Y. Research review and prospect of enterprise innovation ecosystem governance[J].Science & Technology Progress and Policy, 2017,34(5):156160.
[18]	解学梅,韩宇航,代梦鑫.企业开放式创新生态系统种群共生关系与演化机理研究[J].科技进步与对策,2022,39(21):8595.XIE X M, HAN Y H, DAI M X. Research on the symbiotic relationship and evolution mechanism of enterprise open innovation ecosystem[J].Science & Technology Progress and Policy, 2022,39(21):8595.
[19]	曲永军,毕新华.后发地区战略性新兴产业成长动力研究[J].社会科学战线,2014(5):245247.QU Y J, BI X H. Research on the growth momentum of strategic emerging industries in latecomerregions[J].Social Science Front, 2014(5):245247.
[20]	余菲菲,燕蕾.创新社区中用户创新的创新效应及意见探究:以海尔HOPE创新平台为例[J].科学学与科学技术管理,2017,38(2):5567.YU F F, YAN L. Research on the innovation effect and opinions of user innovation in the innovation community: taking Haier HOPE innovation platform as an example[J].Science of Science and Management of S & T, 2017,38(2):5567.
[21]	谭劲松,宋娟,陈晓红.产业创新生态系统的形成与演进:“架构者”变迁及其战略行为演变[J].管理世界,2021,37(09):167191.TAN J S, SONG J, CHEN X H. The formation and evolution of industrial innovationecosystem: the change of ' architect ' and the evolution of its strategic behavior[J].Journal of Management World, 2021,37(9):167191.
[22]	刘征驰,陈文武,马滔.社交机制、关系结构与社群网络知识协作[J].管理学报,2020,17(9):13731382.LIU Z C, CHEN W W, MA T. Social mechanism, relationship structure and community network knowledge collaboration[J].Chinese Journal of Management, 2020,17(9):13731382.
[23]	董睿,张海涛.复杂网络视角下创新生态系统知识转移建模及仿真研究[J].软科学,2022,36(6):122129.DONG R, ZHANG H T. Modeling and simulation of knowledge transfer in innovation ecosystem from the perspective of complex network[J].Soft Science, 2022,36(6):122129.
[24]	宁连举,刘茜,张普宁.基于社会偏好的网络社群中顾客契合演化研究[J].科研管理,2017,38(9):150160.NING L J, LIU Q, ZHANG P N. Research on the evolution of customer engagement in online communities based on social preferences[ J ].Science Research Management, 2017,38 (9):150160.
[25]	菅利荣,王大澳,王迪飞.基于反择优退出机制的战略性新兴产业集群网络演化分析[J].情报杂志,2020,39(5):202207.KAN L R, WANG D A, WANG D F. Evolution analysis of strategic emerging industry cluster network based on anti-preferred exit mechanism[J].Journal of Intelligence,2020,39(5):202207.
[26]	LI X, CHEN G. A local-world evolving network model[J]. Physica A: Statistical Mechanics and Its Applications,2003, 328(12), 274286.

[1]	陈伟杰, 张涛, 汤玉秀. 公众参与下“征信修复”乱象治理的随机演化博弈[J]. 复杂系统与复杂性科学, 2025, 22(3): 129-137.
[2]	詹秀秀, 叶涛, 刘闯, 刘雪梅. 农产品贸易网络中国家影响力分析与研究[J]. 复杂系统与复杂性科学, 2025, 22(1): 26-32.
[3]	胡福年, 杨伟丹, 陈军. 基于关键节点的电力信息物理系统鲁棒性评估[J]. 复杂系统与复杂性科学, 2025, 22(1): 43-49.
[4]	侯静宇, 宋运忠. 基于多链路连锁故障图的电网脆弱线路分析[J]. 复杂系统与复杂性科学, 2024, 21(2): 68-74.
[5]	张鹏, 菅利荣, 王丹丹. 共生网络视角下工业园生态转型治理机制研究[J]. 复杂系统与复杂性科学, 2023, 20(1): 95-104.
[6]	徐泽洲, 曲大义, 洪家乐, 宋晓晨. 智能网联汽车自动驾驶行为决策方法研究[J]. 复杂系统与复杂性科学, 2021, 18(3): 88-94.
[7]	付帅帅, 陈伟达, 丁军飞, 王丹丹. 政府对“农超对接”发展影响的多方博弈与仿真[J]. 复杂系统与复杂性科学, 2020, 17(3): 52-61.
[8]	武利琴, 王金环, 徐勇. 一种基于半张量积的多层网络演化博弈方法[J]. 复杂系统与复杂性科学, 2017, 14(3): 68-74.
[9]	杨凯, 刘晓露, 林坚洪, 成曦, 郭强, 刘建国. “冰桶挑战”诱导的社交网络演化分析[J]. 复杂系统与复杂性科学, 2016, 13(2): 90-96.

Viewed

Full text

Abstract

Cited

Shared

Discussed