协同创新是当代科技创新的新范式,协同创新的可持续发展是科技创新高效率发展的前提,本文认为形成耗散结构是协同创新系统提高环境适应性,实现可持续发展的最佳途径。因此本文基于耗散结构理论,为协同创新系统耗散结构的判定提供了可借鉴的分析方法。本文首先建立协同创新系统正负熵流指标体系；随后对Brussels模型进行转译,建立协同创新系统的Brussels模型,提出协同创新系统形成耗散结构的判据,并以熵值法为正负熵值的计算依据；最后以重庆自主品牌汽车协同创新中心为例,通过问卷调查法获取协同创新系统正负熵流指标的基础数据,进行实证分析,据此判定其是否形成耗散结构并提出对策建议。

Collaborative innovation is a new paradigm of science and technology innovation, the orderly development of collaborative innovation system is a prerequisite for achieving the high efficiency development of collaborative innovation. Based on the dissipative structure theory, this thesis provides an analysis method for the determination of the dissipative structure. First, this thesis sets up the index system of positive entropy and negative entropy. Then, this thesis establishes the Brussels model of collaborative innovation system, put forwards the judgement basis of dissipative structure, and calculates the positive and negative entropy by using entropy method. Finally, this thesis chooses the Chongqing own brand cars collaborative innovation center as subject, gains the basic data of the index system by using the questionnaire method, and do practical analysis.

F204

国家社会科学基金“面向产学研协同创新联盟稳定性的知识产权冲突管理机制研究”（15BGL024）