Grid-Based Employee Safety Behavior Risk Assessment of the Train Operation Department

In the train operation department, the most important and dynamic factor is that the department employees are involved in all areas. Realizing the dynamic control of "key person, key event, and key period" to fundamentally curb employee inertia violation is a significant issue that needs to be solved on the railway site. The traditional "probability-severity" two-dimensional risk assessment model is carried out from the perspective of the system, ignoring the spatiotemporal risk characteristics of the individual, and a large amount of hazard factor data generated in the operation process is not applied in the risk assessment process. As a result, safety behavior risk practice lacks pertinence, accuracy, and individuation. This study proposes a safety behavior risk assessment model based on the grid management and hazard factor assignment function to improve the traditional two-dimensional risk matrix. By introducing spatial location variables, the method accurately locates and classifies the site staff and organizes the disorder and lack of associated risk data with regard to time and space. With a focus on the hazard factor, the induced intensity is proposed for the first time and considered as the input of probability calculation to innovate the traditional "probability-severity" risk matrix. Finally, the methodology is applied to the risk event assessment of "the assistant watchman doesn't appear as required" scenario in the Huangyangcheng station of Shenshuo Railway, and the evaluation results realize the personalized evaluation of the risk event in different cell grids.