面向公共安全的台风-崩塌灾害链风险评估模型构建方法

刘洪光; 杨强根; 施霞珍; 陈小红; 周永贵; 施昌辉

doi:10.3799/dqkx.2025.153

Volume 50 Issue 10

Oct. 2025

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Article Navigation > Earth Science > 2025 > 50(10): 4059-4070

Liu Hongguang, Yang Qianggen, Shi Xiazhen, Chen Xiaohong, Zhou Yonggui, Shi Changhui, 2025. Construction Methodology of Modeling Risk Assessment for Typhoon-Collapse Disaster Chain for Public Safety. Earth Science, 50(10): 4059-4070. doi: 10.3799/dqkx.2025.153

Citation:

Liu Hongguang, Yang Qianggen, Shi Xiazhen, Chen Xiaohong, Zhou Yonggui, Shi Changhui, 2025. Construction Methodology of Modeling Risk Assessment for Typhoon-Collapse Disaster Chain for Public Safety. Earth Science, 50(10): 4059-4070. doi: 10.3799/dqkx.2025.153

Citation:

Liu Hongguang, Yang Qianggen, Shi Xiazhen, Chen Xiaohong, Zhou Yonggui, Shi Changhui, 2025. Construction Methodology of Modeling Risk Assessment for Typhoon-Collapse Disaster Chain for Public Safety. Earth Science, 50(10): 4059-4070. doi: 10.3799/dqkx.2025.153

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Construction Methodology of Modeling Risk Assessment for Typhoon-Collapse Disaster Chain for Public Safety

doi: 10.3799/dqkx.2025.153

1.
Wuhan Branch of Piesat Information Technology Co., Ltd., Wuhan 430073, China
2.
Network and Information Center, China University of Geosciences, Wuhan 430074, China
3.
Wuhan Lantian Lvye Consulting and Design Co., Ltd., Wuhan 430024, China
4.
Piesat Information Technology Co., Ltd., Beijing 100195, China
5.
Hubei Xi'an Energy Saving and Environmental Protection Technology Co., Ltd., Wuhan 430056, China

Received Date: 2025-05-23
Publish Date: 2025-10-25

Abstract

Abstract

Public safety serves as the foundation for human social development. Enhancing the capability to respond to disaster chains safeguards socio-economic activities and protects lives and property. Currently, variable climate patterns pose severe threats to exposed elements via typhoon-collapse disaster chains. This research employs knowledge graph technology, artificial intelligence techniques, and integrates the expert scoring method to analyze, and investigate the correlations and structural systems between exposed elements—such as personnel, buildings, transportation, and property—within typhoon-collapse disaster chains. It innovatively constructs a risk assessment model for these disaster chains. The model's outcomes were validated through case studies of Typhoon Doksuri and a highway slope collapse at Yunmeng Mountain. Findings demonstrate that the model effectively supports risk assessment for typhoon-collapse disaster chains, improving assessment accuracy and reliability. This provides novel methodologies and insights for disaster risk management in the field of public safety.
- public safety,
- typhoon,
- collapse,
- disaster chain,
- knowledge graph,
- artificial intelligence,
- risk assessment,
- engineering geology

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References(37)

References

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