Warianty tytułu
Języki publikacji
Abstrakty
The paper deals with a model of the allocation and reliability problem. This static problem, presented as a multistage decision process, can be solved using multiobjective dynamic programming. The goal of this paper is to formulate the allocation and reliability problem as a multistage decision process, to find the set of all its efficient solutions, to use the weighted sum method for multistage and single-stage criteria, as well as to perform sensitivity analysis.(original abstract)
Rocznik
Tom
Strony
149--166
Opis fizyczny
Twórcy
autor
- University of Economics in Katowice, Poland
Bibliografia
- Abdelaziz F.B., Colapinto C., La Torre D., Liuzzi D. (2018), A Stochastic Dynamic Multiobjective Model for Sustainable Decision Making, Annals of Operations Research, 2018.
- Bellman R. (1957), Dynamic Programming, Princeton University Press, Princeton.
- Bozorgi-Amiri A., Khorsi M. (2016), A Dynamic Multi-objective Location-routing Model for Relief Logistic Planning under Uncertainty on Demand, Travel Time, and Cost Parameters, The International Journal of Advanced Manufacturing Technology, 85(5-8), 1633-1648.
- Chen S., Fu G. (2005), Combining Fuzzy Iteration Model with Dynamic Programming to Solve Multiobjective Multistage Decision Making Problems, Fuzzy Sets and Systems, 152(3), 499-512.
- Hämäläinen R.P., Mäntysaari J. (2002), Dynamic Multi-objective Heating Optimization, European Journal of Operational Research, 142(1), 1-15.
- Klamroth K., Wiecek M.M. (2000), Dynamic Programming Approaches to the Multiple Criteria Knapsack Problem, Naval Research Logistics, 47(1), 57-76.
- Klötzler R. (1978), Multiobjective Dynamic Programming, Mathematics Operations Horsch Statistics Series Optimization, 9(3), 423-426.
- Li D., Haimes Y.Y. (1989), Multiobjective Dynamic Programming: The State of the Art, Control Theory and Advanced Technology, 5, 4, 471-483.
- Mafakheri F., Breton M., Ghoniem A. (2011), Supplier Selection-order Allocation: A Two-stage Multiple Criteria Dynamic Programming Approach, International Journal of Production Economics, 132(1), 52-57.
- Mine H., Fukushima M. (1979), Decomposition of Multiple Criteria Mathematical Programming Problems by Dynamic Programming, International Journal of System Science, 10, 5, 557-566.
- Mitten L.G. (1964), Composition Principles for Synthesis of Optimal Multistage Processes, Operations Research, 12, 610-619.
- Nowak M., Trzaskalik T. (2014), Interactive Approach Application to Stochastic Multiobjective Allocation Problem -a Two-phase Approach, Multiple Criteria Decision Making, 9, 84-100
- Renaud J., Thibault J., Lanouette R., Kiss L.N, Zaras K., Fonteix C. (2007), Comparison of Two Multicriteria Decision Aid Methods: Net Flow and Rough Set Methods in a High Yield Pulping Process, European Journal of Operational Research, 177, 1418-1432.
- Trzaskalik T. (2015), MCDM Applications of Near Optimal Solutions in Dynamic Programming, Multiple Criteria Decision Making, 10, 166-184.
- Trzaskalik T. (1998), Multiobjective Analysis in Dynamic Environment, The Karol Adamiecki University of Economics Press, Katowice.
- Trzaskalik T. (1993), Weighted Sum Approach to Multiple Criteria Discrete Dynamic Programming, Proceedings of the Administrative Sciences Association of Canada, 14, 2.
- Trzaskalik T. (1990), Wielokryterialne dyskretne programowanie dynamiczne. Teoria i zastosowania w praktyce gospodarczej, Wydawnictwo Akademii Ekonomicznej im. Karola Adamieckiego, Katowice
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.ekon-element-000171554219