Multi-objective optimization for integrated sugarcane cultivation and harvesting planning
Angelo Aliano Filho, Washington A. Oliveira, Teresa Melo
ARTIGO
Português
Agradecimentos: The first author is grateful to the Federal Technological University of Paraná (UTFPR) for the computational and financial support provided through project no. 2019–010001582. The work of the second author was supported by the Brazilian National Council for Scientific and...
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Agradecimentos: The first author is grateful to the Federal Technological University of Paraná (UTFPR) for the computational and financial support provided through project no. 2019–010001582. The work of the second author was supported by the Brazilian National Council for Scientific and Technological Development (CNPq) under grant no. 309925/2021-5. This support is gratefully acknowledged. We also thank three anonymous reviewers for their valuable comments
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Abstract: Sugarcane and its by-products make a relevant contribution to the world economy. In particular, the sugar-energy industry is affected by the timing of sugarcane cultivation and harvesting from which sucrose and bio-energy are produced. We address this issue by proposing a mixed-integer...
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Abstract: Sugarcane and its by-products make a relevant contribution to the world economy. In particular, the sugar-energy industry is affected by the timing of sugarcane cultivation and harvesting from which sucrose and bio-energy are produced. We address this issue by proposing a mixed-integer non-linear programming model to schedule planting and harvesting operations for different varieties of sugarcane. The decisions to be made include the choice of sugarcane varieties to be grown on a given set of plots, the periods for their cultivation, the subsequent harvesting periods, and the type of harvesting equipment. These decisions are subject to various constraints related to matching cultivation periods with harvesting periods according to the maturity cycles of the selected sugarcane varieties, the availability of harvesting machinery, the demand for sucrose and fiber, and further technical requirements. The tactical cultivation and harvesting plans to be determined account for three conflicting objectives, namely maximization of the total sucrose and fiber production, minimization of the total time devoted to harvesting, and minimization of the total cost of transporting the harvesting equipment. We develop a tailored exact method based on the augmented Chebyshev scalarization technique extended with a mechanism for identifying an initial feasible integer solution that greatly helps reduce the computational effort for obtaining Pareto-optimal solutions. Our computational study with instances that reflect the current cultivation and harvesting practices in Brazil demonstrate the effectiveness of the proposed methodology. In addition, a comparative analysis reveals the trade-offs achieved by alternative planting and harvesting schedules, thereby facilitating the decision-making process
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CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ
309925/2021-5
Aberto
Multi-objective optimization for integrated sugarcane cultivation and harvesting planning
Angelo Aliano Filho, Washington A. Oliveira, Teresa Melo
Multi-objective optimization for integrated sugarcane cultivation and harvesting planning
Angelo Aliano Filho, Washington A. Oliveira, Teresa Melo
Fontes
European journal of operational research (Fonte avulsa) |