Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Decisions regarding agricultural production involve multiple goals. A multicriteria approach allows decision makers to consider more aspects of the decision scenario, although it also leads to other problems, such as difficulties with the selection of goals or criteria, as well as assigning them appropriate weights. It is argued that not only do goals vary depending on the decision-makers’ socioeconomic features, but their relative importance changes as well. A simulation study has been conducted based on the Farm Accountancy Data Network (FADN) database. We use the distance-to-the-negative-solution maximization model. Seven sets of criteria and different sets of weights are considered. The main purpose of the study is to determine the impact of weights on the quality of the model. Quality is assessed by comparing the optimal and observed values of the decision variables. The results lead to the conclusion that the differences between the quality of various models are small.
Czasopismo
Rocznik
Tom
Strony
51--69
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
- Institute of Agricultural and Food Economics – National Research Institute, Mathematics Application in Agricultural Economics Department, ul. Świętokrzyska 20, 00-002 Warszawa, Poland
Bibliografia
- [1] ADEWUMI M.O., OMOTESHO O.A., An analysis of production objectives of small-scale rural farming households in Kwara State, Nigeria, Journal of Rural Development, 2002, 25 (2), 201.
- [2] BAŃKOWSKA K., The basis of decision making by professional farmers in an era of polarization in the structure of farms, [in:] M.G. Woźniak (Ed.), Social inequality and economic growth. Human and intellectual capital, Part 2, Wydawnictwo Uniwersytetu Rzeszowskiego, Rzeszów 2005, 465 (in Polish).
- [3] BARRON F.H., BARRET B.E., Decision quality using ranked attribute weights, Management Science, 1996, 42 (11), 1515.
- [4] BASARIR A., GILLESPIE J., Eliciting farmers’ goal hierarchies. Comparing the fuzzy pairwise method with the simple ranking procedure, International Journal of Agriculture and Biology, 2007, 9 (2), 257.
- [5] CHAVEZ M.D., BERENTSEN P.B.M., OUDE LANSINK A.G.J.M., Assessment of criteria and farming ac-tivities for tobacco diversification using the analytical hierarchical process (AHP) technique, Agri-cultural Systems, 2012, 111, 53.
- [6] COSTA F.P., REHMAN T., Exploring the link between farmers’ objectives and the phenomenon of pasture degradation in the beef production systems of Central Brazil, Agricultural Systems, 1999, 61 (2), 135.
- [7] EDWARDS-JONES G., DEARY I., WILLOCK J., Incorporating psychological variables in models of farmer behaviour. Does it make for better predictions?, [in:] J. Brossier, B. Dent (Eds.), Gestion des exploi-tations et des ressources rurales. Entreprendre, négocier, évaluer. Études et Recherches sur les Sys-tèmes Agraires et le Développement, Versailles, FRA, INRA, 1998, 31, 153.
- [8] GASSON R., Goals and values of farmers, Journal of Agricultural Economics, 1973, 24 (3), 521.
- [9] GREINER R., GREGG D., Farmers’ intrinsic motivations, barriers to the adoption of conservation prac-tices and effectiveness of policy instruments: Empirical evidence from northern Australia, Land Use Policy, 2011, 28 (1), 257.
- [10] HARMAN W.L., EIDMAN V.R., HATCH R.E., CLAYPOOL P.L., Relating farm and operator characteristic to multiple goals, Southern Journal of Agricultural Economics, 1972, 4 (1), 215.
- [11] HAYASHI K., Multicriteria analysis for agricultural resource management. A critical survey and future perspectives, European Journal of Operational Research, 2000. 122 (2), 486.
- [12] HENNINGSEN A., HENNINGSEN G., Econometric estimation of the constant elasticity of substitution function in R: Package micEconCES, 2011, http://cran.r-project.org/web/packages /micEconCES/ vignettes/CES.pdf
- [13] KEMFERT C., Estimated substitution elasticities of a nested CES production function approach for Germany, Energy Economics, 1998, 20 (3), 249.
- [14] VAN KOOTEN G.C., SCHONEY R.A., HAYWARD K.A., An alternative approach to the evaluation of goal hierarchies among farmers, Western Journal of Agricultural Economics, 1986, 11 (1), 40.
- [15] MAJEWSKI E., ZIĘTARA W., Multiple goals in farming households, Zagadnienia Ekonomiki Rolnej, 1997 (6), 29 (in Polish).
- [16] R Core Team, R: A Language and Environment for Statistical Computing, R Foundation for Statistical Computing, 2012, http://www.R-project.org/
- [17] SAATY T.L., Decision making with the analytic hierarchy process, International Journal of Services Sciences, 2008, 1 (1), 83.
- [18] SAATY T.L., The Analytic Hierarchy Process, McGraw Hill, New York 1980.
- [19] SAHIN A., GUNDEN C., CANKURT M., MIRAN B., YILDIRIM I., Determination of farmers’ goal statements priorities and factors effective on decision (an application of fuzzy pairwise comparison analysis), Pro-ceedings of the 1st Annual International Interdisciplinary Conference, AIIC 2013, 24.04–26.04, Azores, Portugal, 2013, 537.
- [20] SIELSKA A., Multiplecriteria decision making by farms regarding production, Doctoral Thesis, War-saw School of Economics, Warsaw 2014 (in Polish).
- [21] SOLANO C., LEÓN H., PÉREZ E., HERRERO M., Characterising objective profiles of Costa Rican dairy farmers, Agricultural Systems, 2001, 67 (3), 153.
- [22] SOLANO C., LEÓN H., PÉREZ E., HERRERO M., Who makes farming decisions? A study of Costa Rican dairy farmers, Agricultural Systems, 2001, 67 (3), 181.
- [23] THOMAS T., GUNDEN C., MIRAN B., MANOI M.A., Farmers’ assessment of social and economic ben-efits derived from cooperatives, private firms and other agricultural organizations in the Aegean re-gion of Turkey, Journal of Food, Agriculture and Environment, 2011, 9 (3–4), 1085.
- [24] WALLACE M.T., MOSS J.E., Farmer decision-making with conflicting goals. A recursive strategic pro-gramming analysis, Journal of Agricultural Economics, 2002, 53 (1), 82.
- [25] ZIĘTARA W., The goals of household farmers, Wieś Współczesna, 1986 (7) (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a176f68f-5bdc-4c2f-baff-cf1038b0db56