Abstract
Based on the improved match-element extension model, the maturity of collaborative innovation network in China’s agricultural science and technology parks was explored with 257 national agricultural science and technology parks as research objects. The results show that: (1) the results obtained by measuring the maturity level of collaborative innovation network in national agricultural science and technology parks by asymmetric proximity degree are more consistent with the actual situation;(2) the maturity of collaborative innovation networks in national agricultural science and technology parks are good. Therefore, the park should replace the traditional resource input-driven development model through innovation-driven development to achieve low energy consumption, intensive and high-quality development.
Highlights
China's National Agricultural Science and Technology Parks are becoming a model for the current innovation of agricultural science and technology, the application of agricultural technology and the development of agricultural industry, and an important pole of growth in realizing the optimal allocation of agricultural and rural resources, building an innovative country and a green new countryside, and promoting agricultural modernization [1]
At the present stage, the low energy consumption integrated innovation platform of in China's agricultural science and technology parks has not yet been formed, and the input of innovation resources has not been brought into full play
Lin Sen et al [7] conducted a study on universities and science and technology parks, and found that the collaborative innovation network between the parks remains to be developed, with insufficient innovation ability and relatively low field application rate of scientific and technological achievements
Summary
China's National Agricultural Science and Technology Parks are becoming a model for the current innovation of agricultural science and technology, the application of agricultural technology and the development of agricultural industry, and an important pole of growth in realizing the optimal allocation of agricultural and rural resources, building an innovative country and a green new countryside, and promoting agricultural modernization [1]. Wenhua Zhai[4] discussed agricultural science and technology ecology park (ASTEP), and based on its own system, subsystem and the interaction of various levels of factors and environment, hoped to find ways to improve the ASTEP effect and promote the cooperation and interaction of innovation subjects such as industry, university, research institute, farmers, and government. Lin Sen et al [7] conducted a study on universities and science and technology parks, and found that the collaborative innovation network between the parks remains to be developed, with insufficient innovation ability and relatively low field application rate of scientific and technological achievements. This paper introduced the concept of maturity into the science and technology innovation network inside the park, combined with the improved. Grade Range low level 0~0.2 intermediate level 0.2~0.5 good level 0.5~0.6 excellent level 0.6~1
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