Integrated Optimization Model for Two-Level Epidemic-Logistics Network
As mentioned in the above chapters, the demand of emergency resource is usually uncertain and varies quickly in anti-bioterrorism system. With the consideration of emergency resources allocated to the epidemic areas in the early rescue cycles will affect the demand in the following periods, we construct an integrated and dynamic optimization model with time-varying demand for the emergency logistics network based on the epidemic diffusion rule.
- 4.Wang HY, Wang XP, Zeng AZ. Optimal material distribution decisions based on epidemic diffusion rule and stochastic latent period for emergency rescue. Int J Math Oper Res. 2009;1(1/2):76–96.Google Scholar
- 5.Liu M, Zhao LD. Optimization of the emergency materials distribution network with time windows in anti-bioterrorism system. Int J Innov Comput Inf Control. 2009;5(11A):3615–24.Google Scholar