Fuzzy Preference Ordering of Interval Numbers in Decision Problems
(Sprache: Englisch)
In conventional mathematical programming, coefficients of problems are usually determined by the experts as crisp values in terms of classical mathematical reasoning. But in reality, in an imprecise and uncertain environment, it will be utmost unrealistic...
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In conventional mathematical programming, coefficients of problems are usually determined by the experts as crisp values in terms of classical mathematical reasoning. But in reality, in an imprecise and uncertain environment, it will be utmost unrealistic to assume that the knowledge and representation of an expert can come in a precise way. The wider objective of the book is to study different real decision situations where problems are defined in inexact environment. Inexactness are mainly generated in two ways - (1) due to imprecise perception and knowledge of the human expert followed by vague representation of knowledge as a DM; (2) due to huge-ness and complexity of relations and data structure in the definition of the problem situation. We use interval numbers to specify inexact or imprecise or uncertain data. Consequently, the study of a decision problem requires answering the following initial questions: How should we compare and define preference ordering between two intervals?, interpret and deal inequality relations involving interval coefficients?, interpret and make way towards the goal of the decision problem?
The present research work consists of two closely related fields: approaches towards defining a generalized preference ordering scheme for interval attributes and approaches to deal with some issues having application potential in many areas of decision making.
The present research work consists of two closely related fields: approaches towards defining a generalized preference ordering scheme for interval attributes and approaches to deal with some issues having application potential in many areas of decision making.
Klappentext zu „Fuzzy Preference Ordering of Interval Numbers in Decision Problems “
In conventional mathematical programming, coefficients of problems are usually determined by the experts as crisp values in terms of classical mathematical reasoning. But in reality, in an imprecise and uncertain environment, it will be utmost unrealistic to assume that the knowledge and representation of an expert can come in a precise way. The wider objective of the book is to study different real decision situations where problems are defined in inexact environment. Inexactness are mainly generated in two ways - (1) due to imprecise perception and knowledge of the human expert followed by vague representation of knowledge as a DM; (2) due to huge-ness and complexity of relations and data structure in the definition of the problem situation. We use interval numbers to specify inexact or imprecise or uncertain data. Consequently, the study of a decision problem requires answering the following initial questions: How should we compare and define preference ordering between two intervals?, interpret and deal inequality relations involving interval coefficients?, interpret and make way towards the goal of the decision problem? The present research work consists of two closely related fields: approaches towards defining a generalized preference ordering scheme for interval attributes and approaches to deal with some issues having application potential in many areas of decision making.
Inhaltsverzeichnis zu „Fuzzy Preference Ordering of Interval Numbers in Decision Problems “
On Comparing Interval Numbers: A Study on Existing Ideas.- Acceptability Index and Interval Linear Programming.- Fuzzy Preference Ordering of Intervals.- Solving the Shortest Path Problem with Interval Arcs.- Travelling Salesman Problem with Interval Cost Constraints.- Interval Transportation Problem with Multiple Penalty Factors.- Fuzzy Preference based TOPSIS for Interval Multi-criteria Decision Making.- Concluding Remarks and the Future Scope.
Bibliographische Angaben
- Autoren: Atanu Sengupta , Tapan Kumar Pal
- 2009, XII, 166 Seiten, Maße: 16,4 x 24,6 cm, Gebunden, Englisch
- Verlag: Springer, Berlin
- ISBN-10: 3540899146
- ISBN-13: 9783540899143
- Erscheinungsdatum: 13.03.2009
Sprache:
Englisch
Rezension zu „Fuzzy Preference Ordering of Interval Numbers in Decision Problems “
From the reviews:"This research monograph is concerned with modeling fuzzy preference ordering in the frame- work of decision-making. ... The fuzzy preference - based TOPSIS is discussed as well. Overall, the book is a concise and useful treatment of preference handing in uncertain decision-making problems. The wealth of the illustrative numeric material is a useful feature of the book." (Witold Pedryez, Zentralblatt MATH, Vol. 1169, 2009)
Pressezitat
From the reviews:"This research monograph is concerned with modeling fuzzy preference ordering in the frame- work of decision-making. ... The fuzzy preference - based TOPSIS is discussed as well. Overall, the book is a concise and useful treatment of preference handing in uncertain decision-making problems. The wealth of the illustrative numeric material is a useful feature of the book." (Witold Pedryez, Zentralblatt MATH, Vol. 1169, 2009)
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