Author:
Rodríguez-Veiga Jorge,Penas David R.,González-Rueda Ángel M.,Ginzo-Villamayor María José
Abstract
AbstractResource assignment and scheduling models provides an automatic and fast decision support system for wildfire suppression logistics. However, this process generates challenging optimization problems in many real-world cases, and the computational time becomes a critical issue, especially in realistic-size instances. Thus, to overcome that limitation, this work studies and applies a set of decomposition techniques such as augmented Lagrangian, branch and price, and Benders decomposition’s to a wildfire suppression model. Moreover, a reformulation strategy, inspired by Benders’ decomposition, is also introduced and demonstrated. Finally, a numerical study comparing the behavior of the proposals using different problem sizes is conducted.
Funder
Universidade de Santiago de Compostela
Publisher
Springer Science and Business Media LLC
Subject
Electrical and Electronic Engineering,Control and Optimization,Mechanical Engineering,Aerospace Engineering,Civil and Structural Engineering,Software
Reference30 articles.
1. Barnhart C, Johnson EL, Nemhauser GL, Savelsbergh MWP, Vance PH (1998) Branch-and-price: column generation for solving huge integer programs. Oper Res 46:316–329
2. Benders J (1962) Partitioning procedures for solving mixed-variables programming problems. Numer Math 4:238–252
3. Caunhye AM, Nie X, Pokharel S (2012) Optimization models in emergency logistics: a literature review. Socioecon Plann Sci 46:4–13
4. Commission European (2020) Forest fires in Europe, Middle East and North Africa 2019. Technical report, JRC technical reports
5. Conejo A, Castillo E, Mínguez R, García-Bertrand R (2006) Decomposition techniques in mathematical programming: engineering and science applications. Springer