摘要
产学研协同创新体现了系统集成的思想,本文以协同学为基础,从自组织理论视角分析了高校创新能力在产学研协同创新过程中的动态演化规律。研究表明:复杂性科学可以有效地解决公共管理问题的不确定性,本文以具有自组织特征的"B-Z"反应模型为基础,建立了高校知识生产能力、知识传播能力和知识转移能力构成的Logistic模型,通过稳定性分析与仿真模拟,讨论了高校三个能力子系统在产学研协同创新过程中的演化规律,并进一步确定了主导能力要素的序参量模型,并且对我国31所高校在产学研协同创新过程中的演化规律进行了验证性实证分析。本文的研究为我国研究型大学通过调整内部能力结构促进产学研协同创新提供了定量的分析视角与科学的政策讨论依据。
This paper mainly uses the "B-Z" reaction model of self-organization theory as a basis for building a mathematical simulation model.In addition,metaphors are used to explain how to improve universities' innovation ability to promote UniversityIndustry collaborative innovation.Specifically,this paper mainly focuses on understanding:(1) the dominant ability factors of colleges and universities in the process of University-Industry collaborative innovation; and (2) the process mechanism of the dynamic evolution of knowledge triangle-based university-industry collaborative innovation.By using metaphors as the research method to introduce self-organization theory,this paper defines university as a variable in the process of university-industry collaborative innovation,including university research system based on systems theory,knowledge production capacity,knowledge dissemination capacity,knowledge transfer capacity,and external input mechanism.This paper analyzes the mathematical relationship among three capacities and finds that the ability of knowledge production is the dominant factor for universities to participate in university-industry collaborative innovation.This paper establishes a mathematical model of co-evolution between among universities' capacities,and uses mathematical software to simulate the evolution trend of internal state of three abilities of the university system under different external inputs mechanisms.Finally,based on slaving principle of sequence parameter of selforganization,this paper defines knowledge production capacity as the sequence parameter of university system,and constructs the system evolution equation of sequence parameter by using adiabatic elimination principle.The equation allows scientific forecast capacity evolution of 31 university systems in the process of university-industry collaborative innovation.The synergistic relationship between the capacities of university system significantly influences the research collaborative innovation performance under
出处
《管理工程学报》
CSSCI
北大核心
2014年第3期100-109,99,共11页
Journal of Industrial Engineering and Engineering Management
基金
中央高校基本科研业务费专项资金资助项目
全国教育科学"十一五"规划重点课题资助项目(DIA080127)
关键词
知识三角
产学研协同创新
动态演化
自组织理论
knowledge triangle
University-Industry collaborative innovation
Self-organization theory
the "B-Z" reaction model
