Harvest Scheduling Subject to Maximum Area Restrictions: Exploring Exact Approaches

Harvest Scheduling Subject to Maximum Area Restrictions: Exploring Exact Approaches

We consider a spatial problem arising in forest harvesting. For regulatory reasons, blocks harvested should not exceed a certain total area, typically 49 hectares. Traditionally, this problem, called the adjacency problem, has been approached by forming a priori blocks from basic cells of 5 to 25 he...

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Veröffentlicht in:Operations research 2005-05, Vol.53 (3), p.490-500
Hauptverfasser: Goycoolea, Marcos, Murray, Alan T, Barahona, Francisco, Epstein, Rafael, Weintraub, Andres
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Analysis
Applied sciences
cutting planes
environment
Exact sciences and technology
Forest habitats
Forest management
Forestry research
Harvesting
Heuristics
Integer programming
Integers
Linear programming
Mathematical programming
Operational research and scientific management
Operational research. Management science
Polyhedrons
Regulation
Scheduling
Studies
Sustainable forest management
Timber
Timber industry
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Beschreibung
Zusammenfassung:We consider a spatial problem arising in forest harvesting. For regulatory reasons, blocks harvested should not exceed a certain total area, typically 49 hectares. Traditionally, this problem, called the adjacency problem, has been approached by forming a priori blocks from basic cells of 5 to 25 hectares and solving the resulting mixed-integer program. Superior solutions can be obtained by including the construction of blocks in the decision process. The resulting problem is far more complex combinatorially. We present an exact algorithmic approach that has yielded good results in computational tests. This solution approach is based on determining a strong formulation of the linear programming problem through a clique representation of a projected problem.
ISSN:0030-364X
1526-5463
DOI:10.1287/opre.1040.0169