Tailoring A Decomposition Method To A Large Forest Management Scheduling Problem In Northern Ontario

Tailoring A Decomposition Method To A Large Forest Management Scheduling Problem In Northern Ontario

A forest planning problem with multiple market locations and multiple products is formulated for a 3,166,000 ha forested region in northern Ontario. The resulting linear programming model is extremely large, with millions of decision variables and tens of thousands of constraints. A modelling method...

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Veröffentlicht in:INFOR. Information systems and operational research 1996-08, Vol.34 (3), p.209-231
Hauptverfasser: Hauer, Grant K., Hoganson, Howard M.
Format: Artikel
Sprache:eng
Schlagworte:
analyse spatiale
Costs
Decomposition
décomposition
Expenditures
Forest management
forest management scheduling
Growth models
Harvest
Heuristic
heuristics
heuristique
Integer programming
Inventory
Lagrangian relaxation
Linear programming
Methods
Natural resources
Operations research
programmation de la gestion forestière
proud-ction de bois
Pulp & paper industry
relaxation Lagrange
Sawmills
Scheduling
spatial analysis
Studies
Supply
Timber
Timber industry
timber supply
Variables
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Beschreibung
Zusammenfassung:A forest planning problem with multiple market locations and multiple products is formulated for a 3,166,000 ha forested region in northern Ontario. The resulting linear programming model is extremely large, with millions of decision variables and tens of thousands of constraints. A modelling method proposed by Hoganson and Rose (1984) was extended and applied successfully for eight model formulations. Optimal, near-feasible solutions were consistently produced in 200 to 300 iterations. Results showed definite, interpretable, patterns in the values of key dual variables that correspond to harvest level constraints in the primal LP and that tie the forest planning problem together.
ISSN:0315-5986
1916-0615
DOI:10.1080/03155986.1996.11732305