Speaker
Description
Traditional safety management models for cyclotron operation and experiments, which address potential risks such as radiation safety, personal safety, and equipment safety, suffer from issues like information silos, insufficient dynamic response, and regulatory blind spots. This paper proposes and preliminarily designs a safety management system architecture based on "spatio-temporal full coverage and multi-dimensional collaborative management." It aims to establish a proactive and humanized safety management system that achieves comprehensive multi-dimensional coverage through three aspects: temporal processization, spatial zonation, and management systematization, thereby comprehensively enhancing safety assurance levels and emergency response capabilities. This design achieves seamless safety monitoring of the cyclotron facility across both time and physical space. It enables dynamic perception of the safety situation, facilitating a shift from reliance on "human defense" and "technical defense" towards a comprehensive, systematic, and ecological approach.
