Based on the panel data of 277 prefecture-level and above cities in China from 2000 to 2022, a comprehensive evaluation index system for industrial structure transformation and upgrading was constructed from the two dimensions of industrial structure advancement and
rationalization, and the entropy weight TOPSIS method was used to measure its comprehensive index.

Industrial structure transformation and upgrading; Regional differences; Dynamic evolution

[1] Zou, T. (2024). Technological innovation promotes industrial upgrading: An analytical framework. Structural Change and Economic

Dynamics, 70, 150-167.

[2] Liang, S., & Tan, Q. (2024). Can the digital economy accelerates China's export technology upgrading? Based on the perspective of export technology complexity. Technological Forecasting and Social Change, 199, 123052.

[3] Guo, B., Yu, H., & Jin, G. (2024). Urban green total factor productivity in China: A generalized Luenberger productivity indicator and

its parametric decomposition. Sustainable Cities and Society, 106, 105365.

[4] Du, X., Wang, Y., & Chen, F. (2024). Evaluation of coal-resource-based cities transformation based on CRITIC-TOPSIS model. Sustainable Cities and Society, 103, 105271.

[5] Liu, Y., & He, Z. (2024). Synergistic Industrial Agglomeration, New Quality Productive Forces and High-quality Development of the

Manufacturing Industry. International Review of Economics & Finance, 103373.

[6] Xu, R., Yao, H., & Li, J. (2024). Digital Economy's Impact on High-Quality Economic Growth: a Comprehensive Analysis in the Context of China. Journal of the Knowledge Economy, 1-19.