Course detail
Theory of Dynamic Systems, Modelling and Experiment
FSI-RZEAcad. year: 2012/2013
The course offers an overview of basic knowledge in these fields: theory of systems, structure of the world of technology, theory of modelling, theory of experiment, design of technical objects, theory of statistical data processing, theory of failures and limit states, theory of deterministic chaos, theory of synergetics. It offers a possibility of a comprehensive view of technical life of technical objects.
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Learning outcomes of the course unit
Students will get abilities of correct and pragmatic formulation of problems concerning technical systems, basic knowledge on the "art of modelling", on effective exploitation of various types of modelling in solving problems, and the ability of investigation of all processes in systems in the sense of the possibility of a deterministic and stochastic chaos.
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
Course curriculum
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
Habr, J., Vepřek, J.: Systémová analýza a syntéza, 1986,
Janíček, P.: Ondráček. E.: Řešení problémů modelování, (skriptum), 1995.
Janíček, P.: Systémové pojetí vybraných oborů pro techniky, 2006
Ondráček,E.,Janíček,P.: Výpočtové modely v technické praxi, , 0
Recommended reading
Ondráček,E.,Janíček,P.: Výpočtové modely v technické praxi, , 0
Classification of course in study plans
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
2. Definition of terms real and abstract system, classification of systems from various viewpoints.
3. Dynamic systems – classification (linear, non-linear, autonomous, non-autonomous), properties, behaviour, stability.
4. Technical objects as dynamic systems – a comprehensive view of technical products.
5. Comprehensive information on modelling (definition, history, axioms, attributes, generalized structure).
6. Comprehensive information on modelling (computational modelling – analytical, numerical, using artificial intelligence).
7. Comprehensive information on modelling (creation of computational models, simulation, identification, optimization).
8. Comprehensive information on technical experiment (definition, classification, generalized structure, decomposition).
9. Comprehensive information on technical experiment (measuring methods in general and in solid mechanics, diagnostics).
10. Comprehensively on design of technical objects (series and parallel engineering, computational supports, logistics).
11. Theory and applications of limit states at technical objects (definition, generalized structure, classification).
12. Theory and applications of mathematical statistics (definition, generalized structure, classification of statistical methods).
13. Deterministic chaos (definition, ways of chaos initiation, chaotic behaviour of non-linear systems, synergetics).