Artículo
Abstract:
The salmon farming production chain is structured in four consecutive phases: freshwater, seawater, plant processing, and distribution and marketing. The phases interact in a pull manner, freshwater stocks fish to meet seawater's demand, seawater produces to meet plant processing biomass demand, and the processing plant produces to satisfy consumers' demand. Freshwater planning decisions are in regard to which freshwater center the fish should be located depending on the state of development of the fish. The goal is to satisfy seawater's demand while minimizing costs. In the seawater phase, the fish are first placed in seawater centers, and then sent to the processing plant as they approach suitable harvest conditions. The goal of seawater is to maximize harvested biomass while satisfying processing plant's demand. This paper presents two mixed-integer linear programming models-one for the freshwater phase and another for the seawater phase. These models are designed in such a way that the production planning is well integrated and more efficient and incorporates the requirements of the farm operator's freshwater and seawater units (biological, economic, and health-related constraints) ensuring that production in both phases is better coordinated. The development of the two models was based on the farming operations of one of the main producer farms in Chile. Preliminary evaluations of the models indicate that they not only succeed in enforcing constraints that are difficult to be met by manual planning but also led to more effective results in terms of the objectives set out. © 2013 International Federation of Operational Research Societies.
Registro:
| Documento: | Artículo |
| Título: | Mathematical models for optimizing production chain planning in salmon farming |
| Autor: | Bravo, F.; Durán, G.; Lucena, A.; Marenco, J.; Morán, D.; Weintraub, A. |
| Filiación: | Sloan School of Management, MIT, United States Departamento de Ingeniería Industrial, FCFM, Universidad de Chile, Chile Instituto de Cálculo y Departamento de Matemática, FCEyN, Universidad de Buenos Aires y CONICET, Argentina Programa de Engenharia de Sistemas e Computacão-Coppe, URFJ, Brazil Instituto de Ciencias, Universidad Nacional de General Sarmiento, Argentina H. Milton Stewart School of Industrial and Systems Engineering, Georgia Institute of Technology, United States |
| Palabras clave: | Integer programming; Planning; Production chain; Salmon farming; Minimizing costs; Mixed integer linear programming; Processing plants; Production chain; Production planning IS; Salmon farming; Fish; Integer programming; Linear programming; Mathematical models; Planning; Water; Seawater |
| Año: | 2013 |
| Volumen: | 20 |
| Número: | 5 |
| Página de inicio: | 731 |
| Página de fin: | 766 |
| DOI: | http://dx.doi.org/10.1111/itor.12022 |
| Título revista: | International Transactions in Operational Research |
| Título revista abreviado: | Int. Trans. Oper. Res. |
| ISSN: | 09696016 |
| Registro: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_09696016_v20_n5_p731_Bravo |
Referencias:
- Begen, M., Puterman, M., Development of a catch allocation tool design for production planning at JS Mcmillan fisheries (2003) Infor-Information Systems and Operational Research, 41 (3), pp. 235-244
- Bjørndal, T., Optimal harvesting of farmed fish (1988) Marine Resource Economics, 5 (2), pp. 139-159
- Bjørndal, T., Herrero, I., Newman, A., Romero, C., Weintraub, A., Operations research in the natural resource industry (2012) International Transactions in Operational Research, 19 (1-2), pp. 39-62
- Bjørnsson, B., Effects of stocking density on growth rate of halibut (hippoglossus hippoglossus l.) reared in large circular tanks for three years (1994) Aquaculture, 123 (3-4), pp. 259-270
- Brett, J., Environmental factors and growth (1979) Fish Physiology, 8, pp. 599-675. , In Hoar, W.S., Randall, D.J., Brett, J. (eds), Academic Press, New York
- Cho, C.Y., Bureau, D.P., Development of bioenergetic models and the fish-prfeq software to estimate production, feeding ration and waste output in aquaculture (1998) Aquatic Living Resources, 11 (4), pp. 199-210
- Cisternas, F., DelleDonne, D., Duran, G., Polgatiz, C., Weintraub, A., Optimizing salmon farm cage net management using integer programming (2012) Journal of the Operational Research Society, 64, pp. 735-747
- (2008) Cadena de Valor. Cluster del Salmón Chile, , http://www.clustersalmon.cl/Cadenadevalor.htm, Cluster del Salmon, Available at (accessed September 2009)
- Forsberg, O.I., Optimal stocking and harvesting of size-structured farmed fish: a multi-period linear programming approach (1996) Mathematics and Computers in Simulation, 42 (2-3), pp. 299-305
- Forsberg, O.I., Optimal harvesting of farmed atlantic salmon at two cohort management strategies and different harvest operation restrictions (1999) Aquaculture Economics & Management, 3 (2), pp. 143-158
- Gasca-Leyva, J.M.H., Veliov, V.M., Optimal harvesting time in a size-heterogeneous population (2008) Ecological Modelling, 210 (1-2), pp. 161-168
- Jensson, P., Gunn, E., (2001) Optimization of production planning in fish farming, , Technical report, University of Iceland, Reykjavik, Iceland
- Leung, P., Hochman, E., Rowland, L.W., Wyban, J.A., Modeling shrimp production and harvesting schedules (1990) Agricultural Systems, 32 (3), pp. 233-249
- Leung, P., Shang, Y.C., Modeling prawn production management system: a dynamic Markov decision approach (1989) Agricultural Systems, 29 (1), pp. 5-20
- Løland, A., Aldrin, M., Steinbakk, G., Huseby, R., Grøttum, J., Quinn, T., Prediction of biomass in norwegian fish farms (2011) Canadian Journal of Fisheries and Aquatic Sciences, 68 (8), pp. 1420-1434
- Mangel, M., Stamps, J., Trade-offs between growth and mortality and the maintenance of individual variation in growth (2001) Evolutionary Ecology Research, 3, pp. 583-593
- (2009) Informe Económico Salmonicultura 2007, , http://engineering.purdue.edu/mark/puthesis, SalmonChile, SalmonChile A.G. Available at (accessed September 2009)
- Sparre, P., A Markovian decision process applied to optimisation of production planning in fish farming (1976) Meddelser Fra Danmarks Fiskeri Og Havundersøkelser, 7, pp. 111-197
- Yu, R., Leung, P., Optimal harvesting strategies for a multi-cycle and multi-pond shrimp operation: a practical network model (2005) Mathematics and Computers in Simulation, 68 (4), pp. 339-354
- Yu, R., Leung, P., Bienfang, P., Optimal production schedule in commercial shrimp culture (2006) Aquaculture, 254 (1-4), pp. 426-441
Citas:
---------- APA ----------
Bravo, F., Durán, G., Lucena, A., Marenco, J., Morán, D. & Weintraub, A. (2013) . Mathematical models for optimizing production chain planning in salmon farming. International Transactions in Operational Research, 20(5), 731-766.http://dx.doi.org/10.1111/itor.12022
---------- CHICAGO ----------
Bravo, F., Durán, G., Lucena, A., Marenco, J., Morán, D., Weintraub, A. "Mathematical models for optimizing production chain planning in salmon farming" . International Transactions in Operational Research 20, no. 5 (2013) : 731-766.http://dx.doi.org/10.1111/itor.12022
---------- MLA ----------
Bravo, F., Durán, G., Lucena, A., Marenco, J., Morán, D., Weintraub, A. "Mathematical models for optimizing production chain planning in salmon farming" . International Transactions in Operational Research, vol. 20, no. 5, 2013, pp. 731-766.http://dx.doi.org/10.1111/itor.12022
---------- VANCOUVER ----------
Bravo, F., Durán, G., Lucena, A., Marenco, J., Morán, D., Weintraub, A. Mathematical models for optimizing production chain planning in salmon farming. Int. Trans. Oper. Res. 2013;20(5):731-766.http://dx.doi.org/10.1111/itor.12022
