Erdong Chen ^* Huaxin Zhang

• Liaoning University, Shenyang, China

Achieving urban public health resilience is a complex, systemic transformation that requires coordinated efforts from all sectors of society. As a key driver of high-quality development, artificial intelligence (AI) technology is poised to play a pivotal role in advancing this goal. This study constructs a comprehensive index of urban public health resilience using the entropy weight method, with AI patent data serving as the primary explanatory variable. By analyzing panel data from 284 prefecture-level cities in China, covering the years 2011 to 2021, the study provides both theoretical insights and empirical evidence on the impact of AI technology on urban public health resilience. The findings indicate that AI technology significantly enhances resilience, with more pronounced effects in eastern and central regions. In addition, the study reveals isomorphic patterns among invention patents, utility model patents, and design patents related to AI technology, highlighting that resource misallocation has prevented western cities from fully benefiting from technological advancements. Spatial analysis further demonstrates that AI technology generates positive spillover effects on public health resilience, with indirect effects from patent authorizations being particularly significant.