Abstract
An optimization model for Timber Harvest Planning (THP) is used to form harvest areas with the objective of maximizing the tree harvest volume subject to harvest regulations. Most optimization models for THP currently in use are based on clear cutting and restricted to adjacency constraints to prevent the creation of large clear-cut openings in the forest. However, an optimization model based on selective cutting-the cutting technique utilized in tropical countries-has rarely been described in the literature. The aim of this study was to propose an optimization model for THP based on selective cutting and subject to a maximum number of trees to be harvested and a minimum number of trees to be damaged during each planning period. The model was solved using three optimization techniques to identify the most suitable technique for use in the process of harvest area formation: Monte Carlo Programming (MCP), Simulated Annealing (SA) and Threshold Acceptance (TA). The obtained results indicate that the SA method provides better solutions than the MCP and TA methods, regardless of problem size. As a conclusion, the proposed model provides a tool to generate timber harvest plans with the improved monitoring and control techniques used in harvesting operations in tropical countries.
Highlights
The aims of this study were to propose an optimization model based on selective cutting that reflects the cutting technique utilized in tropical countries and to test three optimization techniques and identify the technique most suitable for solving this problem
The solutions obtained are classified into the following three categories: (a) an “Optimal” solution, in which the total number of Harvest Volume (HVol) is equal to the MxHVol or the total number of damaged trees is below average; (b) a “Reasonable” solution, in which the total number of HVol is within 5% below the optimal solution or the total number of damaged trees is within 10% above average; and (c) a “Bad” solution, in which the total number of HVol is greater than 5% below the optimal solution or the total number of damaged trees is greater than 10% above average
We proposed an optimization model for Timber Harvest Planning (THP) based on selective cutting to reflect the cutting technique utilized in tropical countries
Summary
Involves selecting and grouping a number of harvest blocks to form harvest areas. Optimization models have been used to determine the Optimization models for THP formulate harvest areas with the objective of maximizing harvest volume subject to spatial constraints that value the non-timber interests of a forest. The objective of the model is to maximize the harvest volume subject to spatial constraints that protect the non-timber value of a forest, based on a clear-cutting technique, restricted to adjacency constraints and solved using optimization techniques. Corresponding Author: Munaisyah Abdullah, Malaysian Institute of Information Technology, Software Engineering Section, University Kuala Lumpur, 50250 Kuala Lumpur, Malaysia. Munaisyah Abdullah et al / Journal of Computer Science 10 (1): 54-65, 2014 been reported in the literature. The aims of this study were to propose an optimization model based on selective cutting that reflects the cutting technique utilized in tropical countries and to test three optimization techniques and identify the technique most suitable for solving this problem
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