Paper Info
Title
A fractional stochastic integer programming problem for reliability-to-stability ratio in forest harvesting.
Abstract
We propose a new fractional stochastic integer programming model for forestry revenue management. The model takes into account the main sources of uncertainties—wood prices and tree growth—and maximizes a reliability-to-stability revenue ratio that reflects two major goals pursued by forest owners. The model includes a joint chance constraint with multirow random technology matrix to account for reliability and a joint integrated chance constraint to account for stability. We propose a reformulation framework to obtain an equivalent mixed-integer linear programming formulation amenable to a numerical solution. We use a Boolean modeling framework to reformulate the chance constraint and a series of linearization techniques to handle the nonlinearities due to the joint integrated chance constraint, the fractional objective function, and the bilinear terms. The computational study attests that the reformulation of the model can handle large number of scenarios and can be solved efficiently for sizable forest harvesting problems.
Year
DOI
Venue
2018
10.1007/s10287-018-0307-z
Comput. Manag. Science
Keywords
Field
DocType
Stochastic programming,Joint probabilistic constraint,Integrated chance constraint,Forestry management,Fractional programming
Revenue management,Revenue,Mathematical optimization,Matrix (mathematics),Forest management,Stochastic programming,Fractional programming,Linearization,Mathematics,Bilinear interpolation
Journal
Volume
Issue
ISSN
15
3-4
1619-697X
Citations 
PageRank 
References 
0
0.34
19
Authors
2
Name
Order
Citations
PageRank
Miguel A. Lejeune125321.95
Janne Kettunen251.44