灾害响应行动中的选址与应急库存预置:最小最大鲁棒模型及玉树地震案例研究

Location and Emergency Inventory Pre‐Positioning for Disaster Response Operations: Min‐Max Robust Model and a Case Study of Yushu Earthquake

Production and Operations Management · 2017
被引 220 · 同刊同年前 5%
FT 50UTD 24ABS 4

中文导读

研究在单一商品救灾网络中同时优化设施选址、应急库存预置和救援物资配送,提出最小最大鲁棒模型处理参数不确定性,并以2010年玉树地震案例验证模型优势。

Abstract

Pre‐positioning emergency inventory in selected facilities is commonly adopted to prepare for potential disaster threat. In this study, we simultaneously optimize the decisions of facility location, emergency inventory pre‐positioning, and relief delivery operations within a single‐commodity disaster relief network. A min‐max robust model is proposed to capture the uncertainties in both the left‐ and right‐hand‐side parameters in the constraints. The former corresponds to the proportions of the pre‐positioned inventories usable after a disaster attack, while the latter represents the demands of the inventories and the road capacities in the disaster‐affected areas. We study how to solve the robust model efficiently and analyze a special case that minimizes the deprivation cost. The application of the model is illustrated by a case study of the 2010 earthquake attack at Yushu County in Qinghai Province of PR China. The advantage of the min‐max robust model is demonstrated through comparison with the deterministic model and the two‐stage stochastic model for the same problem. Experiment variants also show that the robust model outperforms the other two approaches for instances with significantly larger scales.

应急管理运筹学设施选址鲁棒优化灾害响应