Abstract
In view of the need to improve the planning of timber harvest and transportation, with both activities being the most influential in determining the final cost of timber delivered to the mill yard, this work aims to develop a new methodological proposal using operations research and geotechnology tools in order to determine optimal locations for log stacking and also the amountof timber to be allocated to each selected stack. Analysis was performed using two software applications, geographic information system (GIS) and operations research (OR). GIS spatial analyses were based on layers of the study site, which is a property owned by Votorantim Celulose e Papel, located in the municipality of São José dos Campos, in order to obtain three variables: degree of difficulty in operating forestry equipment, degree of difficulty in log stacking, and distance between log stacks and existing roadways. To obtain these variables, layers containing information on terrain inclination and existing roadways were combined in another analysis named weighted overlay. Results were then filtered and inserted into an operations research environment for maximizationof the timber volume in each selected stack. With results obtained from the geographic information system, 80 potential sites were selected for log stacking. By using operations research, 59 of these sites were ruled out, a 73% reduction in the number of potential sites, with only 21 sites remaining as potentially optimal for log storage. For each of these 21 sites, an optimal amount of timber wasdetermined to be allocated to each one of them.
Highlights
The planning of forestry activities is critical for any type of decision-making process, whether in the short, medium or long term
The step was to filter the potential areas for log stacking
Eighty apt polygons were obtained for potential log stacking
Summary
The planning of forestry activities is critical for any type of decision-making process, whether in the short, medium or long term. Countless tools and software applications have been developed for use in the forestry sector, often adapted from other sectors, with which to attain more elaborate, satisfactory results in connection with activity planning, including remote sensing (RS), geographic information system (GIS), global positioning system (GPS) and operations research (OR). Authors such as Arce (1997), Contreras and Chung (2007), Flisberg et al (2007), Seixas (1986), Soares et al (2003) and Weintraub and Romero (2006) developed studies in which they present methods for applied use of geotechnology and operations research tools in forestry planning, obtaining good optimization results in several activities, including log hauling, determination of optimal routes and optimal mill setup sites, distance minimization and transportation cost reduction. Machado (2002) argues that activities involving log harvest account for a large portion of the final cost of timber delivered to mill, reaching up to 50%
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