Fuzzy Set Theory—and Its ApplicationsSince its inception, the theory of fuzzy sets has advanced in a variety of ways and in many disciplines. Applications of fuzzy technology can be found in artificial intelligence, computer science, control engineering, decision theory, expert systems, logic, management science, operations research, robotics, and others. Theoretical advances have been made in many directions. The primary goal of Fuzzy Set Theory - and its Applications, Fourth Edition is to provide a textbook for courses in fuzzy set theory, and a book that can be used as an introduction. To balance the character of a textbook with the dynamic nature of this research, many useful references have been added to develop a deeper understanding for the interested reader. Fuzzy Set Theory - and its Applications, Fourth Edition updates the research agenda with chapters on possibility theory, fuzzy logic and approximate reasoning, expert systems, fuzzy control, fuzzy data analysis, decision making and fuzzy set models in operations research. Chapters have been updated and extended exercises are included. |
From inside the book
Results 6-10 of 85
Page 14
... role in fuzzy set theory . By contrast to classical set theory , however , convexity conditions are defined with reference to the membership function rather than the support of the fuzzy set . Definition 2-4 A fuzzy set à is convex if ...
... role in fuzzy set theory . By contrast to classical set theory , however , convexity conditions are defined with reference to the membership function rather than the support of the fuzzy set . Definition 2-4 A fuzzy set à is convex if ...
Page 16
... membership function is obviously the crucial component of a fuzzy set . It is therefore not surprising that ... membership function μ¿ ( x ) of the intersection Ĉ = ÃПB is pointwise defined by μč ( x ) = min { μ ( x ) , μg ( x ) } , x ...
... membership function is obviously the crucial component of a fuzzy set . It is therefore not surprising that ... membership function μ¿ ( x ) of the intersection Ĉ = ÃПB is pointwise defined by μč ( x ) = min { μ ( x ) , μg ( x ) } , x ...
Page 17
Hans-Jürgen Zimmermann. Definition 2-7 The membership function μ ( x ) of the union Ď = à U B is pointwise defined by μь ( x ) = max { μà ( x ) , μμ ( x ) } , xEX Definition 2-8 The membership function of the complement of a normalized ...
Hans-Jürgen Zimmermann. Definition 2-7 The membership function μ ( x ) of the union Ď = à U B is pointwise defined by μь ( x ) = max { μà ( x ) , μμ ( x ) } , xEX Definition 2-8 The membership function of the complement of a normalized ...
Page 22
... membership functions were crisp functions , and the operations corresponded essentially to the operations of dual ... function . These extensions will be treated in section 3.1 . It was assumed in chapter 2 that the logical " and ...
... membership functions were crisp functions , and the operations corresponded essentially to the operations of dual ... function . These extensions will be treated in section 3.1 . It was assumed in chapter 2 that the logical " and ...
Page 24
... membership function itself is a fuzzy set . If we call fuzzy sets , such as those considered so far , type 1 fuzzy sets , then a type 2 fuzzy set can be defined as follows . Definition 3-1 A type 2 fuzzy set is a fuzzy set whose membership ...
... membership function itself is a fuzzy set . If we call fuzzy sets , such as those considered so far , type 1 fuzzy sets , then a type 2 fuzzy set can be defined as follows . Definition 3-1 A type 2 fuzzy set is a fuzzy set whose membership ...
Contents
1 | |
8 | |
22 | |
4 | 44 |
The Extension Principle and Applications | 54 |
Fuzzy Relations on Sets and Fuzzy Sets | 71 |
3 | 82 |
7 | 88 |
Applications of Fuzzy Set Theory | 139 |
3 | 154 |
4 | 160 |
5 | 169 |
Fuzzy Sets and Expert Systems | 185 |
Fuzzy Control | 223 |
Fuzzy Data Bases and Queries | 265 |
Decision Making in Fuzzy Environments | 329 |
3 | 95 |
4 | 105 |
2 | 122 |
4 | 131 |
Applications of Fuzzy Sets in Engineering and Management | 371 |
Empirical Research in Fuzzy Set Theory | 443 |
Future Perspectives | 477 |
Other editions - View all
Common terms and phrases
a-level aggregation algebraic algorithm applications of fuzzy approach approximately areas base basic Bezdek chapter classical computational concepts considered constraints crisp criteria customers data analysis DataEngine decision defined definition defuzzification degree of membership described determine domain Dubois and Prade elements engineering example expert systems feature formal Fril fuzzy c-means fuzzy clustering fuzzy control fuzzy control systems fuzzy function fuzzy graph fuzzy logic fuzzy measures fuzzy numbers fuzzy relation fuzzy set à fuzzy set theory goal inference inference engine input integral intersection interval linear programming linguistic variable Mamdani mathematical measure of fuzziness membership function methods min-operator objective function operators optimal parameters possibility distribution probability probability theory problem properties respect rules scale level scheduling semantic solution structure Sugeno t-conorms t-norms Table tion trajectories truth tables truth values uncertainty vector x₁ Yager Zadeh Zimmermann µÃ(x µµ(x