Fuzzy Decision Procedures with Binary Relations

1. Introduction.- 2. Common Notations.- 3. Systematization Of Choice Rules With Binary Relations.- 3.1. Rationality Concept. Multifold Choice.- 3.2. Basic Diohdtomies: Invariant Description.- 3.3. Composition Laws.- 3.4. Synthesis Of Rationality (X)Ncepts.- 4. Fuzzy Decision Procedures.- 4.1. Fuzzy Rationality Concept.- 4.2. Multifold Fuzzy Choice.- 4.3. Families Of Fuzzy Dichotomous Decision Procedures.- 5. Contensiveness Criteria.- 5.1. Motivations And Postulates For Multifold Fuzzy Choice.- 5.2. Dichotomousness And δ-Contensiveness Of Multifold Fuzzy Choice, Procedures, And Relations.- 5.3. Ranking Alternatives Using Multifold Fuzzy Choice.- 6. Fuzzy Inclusions.- 6.1. Motivations, Fuzzy Inclusion And Fuzzy Implication.- 6.2. Axiomatics.- 6.3. Representation Theorem.- 6.4. Properties Of Fuzzy Inclusions.- 6.5. Binary Operations With Fuzzy Inclusions.- 6.6. Characteristic Fuzzy Inclusions (Polynomial And Piecewise-Polynomial Models).- 6.7. Comparative Study Of Fuzzy Inclusions.- 7. Contensiveness Of Fuzzy Dichotomous Decision Procedures In Universal Environment.- 8. Choice With Fuzzy Relations.- 8.1. Basic Technique. Elements Of Multifold Fuzzy Choice.- 8.2. α-Cuts, And Multifold Fuzzy Choice With Basic Dichotomies.- 8.3. The Core Is Unfit.- 8.4. Fuzzy Von Neumann — Morgenstern Solution. Fuzzy Stable Core.- 8.5. Procedures Based On The Dual Composition Law.- 9. Ranking And C-Spectral Properties Of Fuzzy Relations (Fuzzy Von Neumann — Morgenstern — Zadeh Solutions).- 9.1. Basic Characteristics. Ͱ-Mapping.- 9.2. Bounds Of Multifold Fuzzy Choice.- 9.3. Connected Spectrum, And Spectral Properties Of A Fuzzy Relation.- 9.4. Classification Of Multifold Fuzzy Choices.- 9.5. Fuzzy L.Zadeh' Stable Core.- 9.6. Incontensive Procedures BasedOn L.Zadeh' Inclusion.- 10. Invariant, Antiinvariant And Eigen Fuzzy Subsets. Mainsprings Of Cut Technique In Fuzzy Relational Systems.- 11. Contenstveness Of Fuzzy Decision Procedures In Restricted Environment.- 12. Efficiency Of Fuzzy Decision Procedures.- 13. Decision-Making With Special Classes Of Fuzzy Binary Relations.- 13.1. Fuzzy Preorderings.- 13.2. Reciprocal Relations.- 14. Applications To Crisp Choice Rules.- 14.1. Adjusting Crisp Choice.- 14.2. Producing New Choice Rules (Fnmzs And Dipole Decomposition).- 15. Applications To Decision Support Systems And To Multipurpose Decision-Making.- 15.1. General Applications To Decision Support Systems.- 15.2. Applications To Multipurpose Decision-Making.- 15.3. Expert Assistant Ficckas (In Collaboration With S.Orlovski).- Literature.