摘要
高科技企业技术创新成功后,常常形成技术创新核心刚性,阻碍企业形成新的创新模式。提出了技术创新核心刚性的概念和成因,针对成因提出了克服技术创新核心刚性的措施,利用系统动力学流位流率基本入树建模法建立仿真模型,对克服技术创新核心刚性各措施进行灵敏度分析和演示,验证措施的有效性。
After high-tech enterprises succeed in technology innovation, it will bring core rigidities of technology inno- vation, which block the formation of new innovation mode. In this article author brings forward concepts and causes about formation of technology innovation core-rigidities, and puts forward countermeasures to restrain technology innovation core-rigidities, then, creates the simulating model by the method of level variables and rate variables fundamental in-tree modeling of system dynamics, which is used to analyze sensitivity and show effect of the countermeasures, to test availability of countermeasures.
出处
《科学学与科学技术管理》
CSSCI
北大核心
2008年第10期88-92,共5页
Science of Science and Management of S.& T.
基金
江西省社会科学"十一五"规划资助项目(06YJ34)
关键词
系统动力学
技术创新核心刚性
流位流率基本入树建模法
灵敏度分析
高科技企业
system dynamics
techno-innovation core-rigidities
method of level variables and rate variables fundamental in-tree modeling
sensitivity analysis
high-tech enterprise