Analysis of the Coupling Coordination and Spatiotemporal Evolution of High‐Tech Industrial Technological Innovation and Regional Economic Development

Improving the coordination between technological innovation in high‐tech industries and regional economic development is an important measure for all provinces (cities) to implement the innovation‐driven development strategy. Based on the analysis of the mechanism of high‐tech industrial technological innovation and regional economic development, this paper constructs the measurement index system of high‐tech industrial technological innovation and regional economic development, and the chain network DEA model, entropy weight method, coupling coordination model, and exploratory spatial data analysis technology are comprehensively used to empirically analyze the technological innovation efficiency of high‐tech industries, regional economic development level, and the coupling coordination relationship between them and the spatiotemporal evolution trend in 24 provinces (cities) of China from 2009 to 2018. The results show that (1) there are significant differences in the average level of technological innovation efficiency of high‐tech industry in each stage, which is the most prominent in the technology research and development stage, followed by the industrialization stage, and finally in the technology transformation stage. (2) The degree of coupling and coordination between high‐tech industrial technological innovation and regional economic development is increasing year by year, which is in the adaptation stage of high‐tech industrial technological innovation and regional economic development. (3) From the perspective of spatial pattern, there is a positive spatial autocorrelation between the coupling coordination degree of high‐tech industrial technological innovation and regional economic development. The number of provinces (cities) with low coupling coordination degree is much larger than that with high coupling coordination degree, showing a serious imbalance of regional heterogeneity and forming two spatial aggregation areas of “high‐high” diffusion effect and “low‐low” low‐speed growth.