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| Research on the Spatial Structure and Connection of Regional Innovation System Coupling Coordination in the Guangdong-Hong Kong-Macao Greater Bay Area |
| Wang Fangfang1,Yang Zhichen2,Li Xiangtao3,Li Xiongying2 |
| (1.School of Artificial Intelligence and Digital Economy Industry, Guangdong University of Finance&Economics, FoShan 528100,China;2.School of Economics, Guangdong University of Finance&Economics, Guangzhou 510320,China;3.School of Economics, Jinan University, Guangzhou 510632,China) |
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Abstract A deep understanding of the coupling characteristics and coordination mechanism within the regional innovation system is the primary issue to stimulate the innovation vitality and enhance the core competitiveness of the Guangdong-Hong Kong-Macao Greater Bay Area urban agglomeration under the strategy of scientific and technological power. Based on complex network theory and study space method, the use of entropy TOPSIS model, the coupling coordination model, gravity model, social network analysis, to explore a large bay area of guangdong innovation quality and innovation atmosphere coupled coordination of spatial structure, the study found that: (1) comprehensive score of regional innovation system "axis high-low round" spatial structure, guangzhou and shenzhen innovation atmosphere and quality of the coupling coordination degree are higher, that between the two systems show a state of orderly spiral optimized, and the innovation development with double dislocation phenomenon. (2) The Guangdong-Hong Kong-Macao Greater Bay Area has formed a closely connected circular innovation network structure. The spatial transaction costs and co-ordination of the network are significant, and the coupling coordination between Shenzhen-Hong Kong innovation clusters is the most closely connected.
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Received: 02 April 2021
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