The frequency of disasters has been increasing around the world, and the extent of the damage has also been widening. Accordingly, the national emergency preparedness and response to minimize the impact of the accidents, so called resilience, are becoming important. Resilience concept originated in material science has been applied in various areas, and recently it is extended to the risk management field. Meanwhile, in case of radiological emergency plans in South Korea, the evacuation of residents and the diffusion of radioactive materials are assessed separately with deterministic assumptions. Thus, it is unlikely to reflect or consider whether the critical infrastructures such as power systems, telecommunication, media, and so on and the related organization in the response framework are functioning properly when such a major accident occurs. In this paper, we suggest resilience as a measure of the effectiveness of emergency evacuation plan, and within the resilience context, we present the emergency evacuation simulation model framework combining the diffusion model, the evacuation model and the availabilities of the resources. Thus, we demonstrate the simulation model with a simple radiological emergency evacuation scenario.