Title:

Mathematical Foundations of Fuzzy Logic

Code:IMF
Ac.Year:2017/2018
Term:Winter
Curriculums:
ProgrammeBranchYearDuty
IT-BC-3BIT-Elective
IT-BC-3BIT2ndElective
Language:Czech
Credits:5
Completion:classified accreditation
Type of
instruction:
Hour/semLecturesSem. ExercisesLab. exercisesComp. exercisesOther
Hours:0260026
 ExaminationTestsExercisesLaboratoriesOther
Points:0030070
Guarantee:Hliněná Dana, doc. RNDr., Ph.D., DMAT
Instructor:Hliněná Dana, doc. RNDr., Ph.D., DMAT
Faculty:Faculty of Electrical Engineering and Communication BUT
Department:Department of Mathematics FEECS BUT
Prerequisites: 
Discrete Mathematics (IDA), DMAT
Mathematical Analysis (IMA), DMAT
 
Learning objectives:
  To extend an area of mathematical knowledge with an emphasis of solution searchings and mathematical problems proofs.
Description:
  At the beginning of semester, students choose from the supplied topics. On the weekly seminars, they present the topics and discuss about them. The final seminar is for assesment of students' performance.
Knowledge and skills required for the course:
  Knowledge of "IDA - Discrete Mathematics" and "IMA - Mathematical Analysis" courses.
Subject specific learning outcomes and competences:
  Successfull students will gain deep knowledge of the selected area of mathematics (depending on the seminar group), and ability to present the studied area and solve problems within it.
Generic learning outcomes and competences:
  The ability to understand advanced mathematical texts, the ability to design nontrivial mathematical proofs.
Syllabus of numerical exercises:
 
  1. From classical logic to fuzzy logic
  2. Modelling of vague concepts via fuzzy sets
  3. Basic operations on fuzzy sets
  4. Principle of extensionality
  5. Triangular norms, basic notions, algebraic properties
  6. Triangular norms, constructions, generators
  7. Triangular conorms, basic notions and properties
  8. Negation in fuzzy logic
  9. Implications in fuzzy logic
  10. Aggregation operators, basic properties
  11. Aggregation operators, applications
  12. Fuzzy relations
  13. Fuzzy preference structures
Syllabus - others, projects and individual work of students:
 
  1. Triangular norms, class of třída archimedean t-norms
  2. Triangular norms, construction of continuous t-norms
  3. Triangular norms, construction of non-continuous t-norms
  4. Triangular conorms
  5. Fuzzy negations and their properties
  6. Implications in fuzzy logic
  7. Aggregation operators, averaging operators
  8. Aggregation operators, applications
  9. Fuzzy relations, similarity, fuzzy equality
  10. Fuzzy preference structures
Fundamental literature:
 
  1. Alsina, C., Frank, M.J., Schweizer, B., Assocative functions: Triangular Norms and Copulas, World Scientific Publishing Company, 2006
  2. Baczynski, M., Jayaram, B., Fuzzy implications, Studies in Fuzziness and Soft Computing, Vol. 231, 2008
  3. Carlsson, Ch., Fullér, R., Fuzzy reasoning in decision making and optimization, Studies in Fuzziness and Soft Computing, Vol. 82, 2002
  4. Kolesárová, A., Kováčová, M., Fuzzy množiny a ich aplikácie, STU v Bratislave, 2004
Study literature:
 
  1. Alsina, C., Frank, M.J., Schweizer, B., Assocative functions: Triangular Norms and Copulas, World Scientific Publishing Company, 2006
  2. Kolesárová, A., Kováčová, M., Fuzzy množiny a ich aplikácie, STU v Bratislave, 2004
Controlled instruction:
  Active participation in the exercises (group problem solving, evaluation of the ten exercises): 30 points.
Projects: group  presentation, 70 points.
Progress assessment:
  Active participation in the exercises: 30 points.
Projects: 70 points.
Exam prerequisites:
  Students have to get at least 50 points during the semester.