Group decision support with MOLP applications
- 1 January 1989
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Systems, Man, and Cybernetics
- Vol. 19 (1) , 143-153
- https://doi.org/10.1109/21.24546
Abstract
[[abstract]]A group decision support system (GDSS) for a situation in which there are two groups of participants: a professional staff and the decision-makers (DMs). Through the participants' reciprocation and complementation, a three-step decision process utilizing a general multiple-objective linear programming (MOLP) model is designed. The three steps are the generation of alternatives, the group-decision operation, and the evaluation of the final results. The GDSS is evaluated with respect to four criteria: complete information, full participation, equity principle, and economic decision time. On the basis of these criteria, the system has shown its potential to improve the quality of decision-making and to shorten the time required for the process.[[fileno]]2020402010045[[department]]工工This publication has 24 references indexed in Scilit:
- Group Consensus Function Estimation When Preferences are UncertainOperations Research, 1986
- Mathematical programming with multiple objectives: A tutorialComputers & Operations Research, 1980
- Consistent Majority Rules over Compact Sets of AlternativesEconometrica, 1979
- Rational Behaviour and Bargaining Equilibrium in Games and Social SituationsPublished by Cambridge University Press (CUP) ,1977
- The Enumeration of the Set of All Efficient Solutions for a Linear Multiple Objective ProgramJournal of the Operational Research Society, 1977
- A Group Preference Axiomatization with Cardinal UtilityManagement Science, 1976
- Decision analysis for the siting of nuclear power plants—The relevance of multiattribute utility theoryProceedings of the IEEE, 1975
- The set of all nondominated solutions in linear cases and a multicriteria simplex methodJournal of Mathematical Analysis and Applications, 1975
- Cone convexity, cone extreme points, and nondominated solutions in decision problems with multiobjectivesJournal of Optimization Theory and Applications, 1974
- A Class of Solutions for Group Decision ProblemsManagement Science, 1973