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Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] /
It took many decades for Peirce's coneept of a relation to find its way into the microelectronic innards of control systems of eement kilns, subway trains, and tunnel-digging machinery. But what is amazing is that the more we leam about the basically simple coneept of a relation, the more aware we become of its fundamental importanee and wide ranging ramifications. The work by Di Nola, Pedrycz, Sanchez, and Sessa takes us a long distanee in this direction by opening new vistas on both the theory and applications of fuzzy relations - relations which serve to model the imprecise coneepts which pervade the real world. Di Nola, Pedrycz, Sanchez, and Sessa focus their attention on a eentral problem in the theory of fuzzy relations, namely the solution of fuzzy relational equations. The theory of such equations was initiated by Sanchez in 1976, ina seminal paper dealing with the resolution of composite fuzzy relational equations. Sinee then, hundreds of papers have been written on this and related topics, with major contributions originating in France, Italy, Spain, Germany, Poland, Japan, China, the Soviet Union, India, and other countries. The bibliography included in this volume highlights the widespread interest in the theory of fuzzy relational equations and the broad spectrum of its applications.
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| Main Authors: | , , , , |
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| Format: | Texto biblioteca |
| Language: | eng |
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Dordrecht : Springer Netherlands : Imprint: Springer,
1989
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| Subjects: | Mathematics., Computer science., Artificial intelligence., Mathematical logic., Mathematical Logic and Foundations., Artificial Intelligence (incl. Robotics)., Computer Science, general., |
| Online Access: | http://dx.doi.org/10.1007/978-94-017-1650-5 |
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Mathematics. Computer science. Artificial intelligence. Mathematical logic. Mathematics. Mathematical Logic and Foundations. Artificial Intelligence (incl. Robotics). Computer Science, general. Mathematics. Computer science. Artificial intelligence. Mathematical logic. Mathematics. Mathematical Logic and Foundations. Artificial Intelligence (incl. Robotics). Computer Science, general. |
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Mathematics. Computer science. Artificial intelligence. Mathematical logic. Mathematics. Mathematical Logic and Foundations. Artificial Intelligence (incl. Robotics). Computer Science, general. Mathematics. Computer science. Artificial intelligence. Mathematical logic. Mathematics. Mathematical Logic and Foundations. Artificial Intelligence (incl. Robotics). Computer Science, general. Nola, Antonio di. author. Sessa, Salvatore. author. Pedrycz, Witold. author. Sanchez, Elie. author. SpringerLink (Online service) Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / |
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It took many decades for Peirce's coneept of a relation to find its way into the microelectronic innards of control systems of eement kilns, subway trains, and tunnel-digging machinery. But what is amazing is that the more we leam about the basically simple coneept of a relation, the more aware we become of its fundamental importanee and wide ranging ramifications. The work by Di Nola, Pedrycz, Sanchez, and Sessa takes us a long distanee in this direction by opening new vistas on both the theory and applications of fuzzy relations - relations which serve to model the imprecise coneepts which pervade the real world. Di Nola, Pedrycz, Sanchez, and Sessa focus their attention on a eentral problem in the theory of fuzzy relations, namely the solution of fuzzy relational equations. The theory of such equations was initiated by Sanchez in 1976, ina seminal paper dealing with the resolution of composite fuzzy relational equations. Sinee then, hundreds of papers have been written on this and related topics, with major contributions originating in France, Italy, Spain, Germany, Poland, Japan, China, the Soviet Union, India, and other countries. The bibliography included in this volume highlights the widespread interest in the theory of fuzzy relational equations and the broad spectrum of its applications. |
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Mathematics. Computer science. Artificial intelligence. Mathematical logic. Mathematics. Mathematical Logic and Foundations. Artificial Intelligence (incl. Robotics). Computer Science, general. |
| author |
Nola, Antonio di. author. Sessa, Salvatore. author. Pedrycz, Witold. author. Sanchez, Elie. author. SpringerLink (Online service) |
| author_facet |
Nola, Antonio di. author. Sessa, Salvatore. author. Pedrycz, Witold. author. Sanchez, Elie. author. SpringerLink (Online service) |
| author_sort |
Nola, Antonio di. author. |
| title |
Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / |
| title_short |
Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / |
| title_full |
Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / |
| title_fullStr |
Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / |
| title_full_unstemmed |
Fuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / |
| title_sort |
fuzzy relation equations and their applications to knowledge engineering [electronic resource] / |
| publisher |
Dordrecht : Springer Netherlands : Imprint: Springer, |
| publishDate |
1989 |
| url |
http://dx.doi.org/10.1007/978-94-017-1650-5 |
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| _version_ |
1756269486960279552 |
| spelling |
KOHA-OAI-TEST:2155002018-07-30T23:50:30ZFuzzy Relation Equations and Their Applications to Knowledge Engineering [electronic resource] / Nola, Antonio di. author. Sessa, Salvatore. author. Pedrycz, Witold. author. Sanchez, Elie. author. SpringerLink (Online service) textDordrecht : Springer Netherlands : Imprint: Springer,1989.engIt took many decades for Peirce's coneept of a relation to find its way into the microelectronic innards of control systems of eement kilns, subway trains, and tunnel-digging machinery. But what is amazing is that the more we leam about the basically simple coneept of a relation, the more aware we become of its fundamental importanee and wide ranging ramifications. The work by Di Nola, Pedrycz, Sanchez, and Sessa takes us a long distanee in this direction by opening new vistas on both the theory and applications of fuzzy relations - relations which serve to model the imprecise coneepts which pervade the real world. Di Nola, Pedrycz, Sanchez, and Sessa focus their attention on a eentral problem in the theory of fuzzy relations, namely the solution of fuzzy relational equations. The theory of such equations was initiated by Sanchez in 1976, ina seminal paper dealing with the resolution of composite fuzzy relational equations. Sinee then, hundreds of papers have been written on this and related topics, with major contributions originating in France, Italy, Spain, Germany, Poland, Japan, China, the Soviet Union, India, and other countries. The bibliography included in this volume highlights the widespread interest in the theory of fuzzy relational equations and the broad spectrum of its applications.1: Introductory Remarks on Fuzzy Sets -- 2: Fuzzy Relation Equations in Residuated Lattices -- 3: Lower Solutions of Max-Min Fuzzy Equations -- 4: Measures of Fuzziness of Solutions of Max-Min Fuzzy Relation Equations on Linear Lattices -- 5: Boolean Solutions of Max-Min Fuzzy Equations -- 6: ?-Fuzzy Relation Equations and Decomposable Fuzzy Relations -- 7: Max-Min Decomposition Problem of a Fuzzy Relation in Linear Lattices -- 8: Fuzzy Relation Equations with Lower and Upper Semicontinuous Triangular Norms -- 9: Fuzzy Relation Equations with Equality and Difference Composition Operators -- 10: Approximate Solutions of Fuzzy Relation Equations -- 11: Handling Fuzziness in Knowledge-Based Systems -- 12: Construction of Knowledge Base, Its Validation and Optimization -- 13: Inference Algorithms in Knowledge-Based Systems -- 14: A Fuzzy Controller and Its Realization -- 15: Bibliographies -- Author Index.It took many decades for Peirce's coneept of a relation to find its way into the microelectronic innards of control systems of eement kilns, subway trains, and tunnel-digging machinery. But what is amazing is that the more we leam about the basically simple coneept of a relation, the more aware we become of its fundamental importanee and wide ranging ramifications. The work by Di Nola, Pedrycz, Sanchez, and Sessa takes us a long distanee in this direction by opening new vistas on both the theory and applications of fuzzy relations - relations which serve to model the imprecise coneepts which pervade the real world. Di Nola, Pedrycz, Sanchez, and Sessa focus their attention on a eentral problem in the theory of fuzzy relations, namely the solution of fuzzy relational equations. The theory of such equations was initiated by Sanchez in 1976, ina seminal paper dealing with the resolution of composite fuzzy relational equations. Sinee then, hundreds of papers have been written on this and related topics, with major contributions originating in France, Italy, Spain, Germany, Poland, Japan, China, the Soviet Union, India, and other countries. The bibliography included in this volume highlights the widespread interest in the theory of fuzzy relational equations and the broad spectrum of its applications.Mathematics.Computer science.Artificial intelligence.Mathematical logic.Mathematics.Mathematical Logic and Foundations.Artificial Intelligence (incl. Robotics).Computer Science, general.Springer eBookshttp://dx.doi.org/10.1007/978-94-017-1650-5URN:ISBN:9789401716505 |