Introduction.- An earthquake disaster warning system for the HSR safety operation Safety.- A lightning warning system for the HSR operation safety.- A Temperature Warning System for HSR Operation Safety.- A rainstorm warning system for the HSR safety operation.- A Ecological Warning System for the HSR Safety Operation.- A crosswind disaster warning system for the HSR safety operation.- An Integrated Natural Disaster Warning System for the HSR Safety Operation.

Qizhou Hu is Doctoral Supervisor, Professor, Director of High-Speed Rail Science Research Institute of Nanjing University of Science and Technology, Academic Leader of “Blue Project” of Jiangsu University, and Distinguished Professor of Henan Polytechnic University. He is mainly engaged in research on high-speed rail, traffic planning and management, and uncertain mathematical methods. In recent years, he has conducted more than 30 scientific research projects, including more than 30 national, provincial, and ministerial projects. He has published more than 70 papers in major academic journals and international conferences at home and abroad, 6 monographs, 3 textbooks, and 5 popular science books. 

This book explores the mechanisms behind high-speed railway (HSR) traffic accidents caused by natural disasters, employing the concept of “dynamic tracking, situation assessment, and early warning management”. It establishes a natural disaster warning system for ensuring the safety of HSR operations, while providing insightful management measures and methods that address the challenges posed by natural disasters. By analyzing the current state and objective circumstances of HSR safety operations, this book distinguishes itself from similar publications both domestically and internationally. It conducts an in-depth analysis of the safe operation of high-speed railways by adopting a systems science approach that effectively merges theory with practical applications. Furthermore, the book explores the developmental trajectory of high-speed railways and investigates the determination of their safe operation. It comprehensively evaluates the safety of high-speed railway operations by employing mathematical theories of uncertainty, subsequently presenting detailed measures to effectively tackle safety concerns related to high-speed railways.