Analysis and Simulation of Manufacturing Systems

The course is a substitute for:

Analysis and Simulation of Production Systems (X13ASV)

Lecturer:

Tutor:

Supervisor:

Department of Electrotechnology

Synopsis:

Technological and manufacturing equipment as dynamic system. Static models, parameters identification, optimization. Dynamic models, parameters identification, optimization. Modeling and simulation of manufacturing systems. Production machines, buffers, reliability and output power of manufacturing systems. Labor and its manipulations. Examples of simulated manufacturing systems.

Requirements:

The attendance at practices is obligatory. The necessary conditions for obtaining the assessment is elaboration of all assigned problems. A student has to obtain the assessment before the examination.

Syllabus of lectures:

1. Components of the manufacturing process as an dynamic system

2. Specification forms of the dynamic system, decomposition, linearization

3. State specification of the system, examples

4. External specification - forms, examples. Evaluation of the dynamic transitions

5. Mathematical model of the decomposed system. Multidimensional systems

6. Parameters identification, examples

7. Continuous identification. Control optimization of the manufacturing process

8. Manufacturing line as an dynamic system. Production machines, buffers

9. Failures and repairs of the production machines

10. Buffers and their influence upon failure distribution

11. Maintenance of the manufacturing line

12. Output power of the manufacturing line, analytical methods

13. Output power of the manufacturing line, simulation methods

14. Simulation of manufacturing system as a tool of rationalization

Syllabus of tutorials:

1. Software tools for simulation of the dynamic systems

2. Simulation of the electrical systems, mathematic and circuit models

3. Simulation of the power semiconductor systems

4. Component models of the mechalical systems, electromechanical analogy

5. Simulation of the mechanical and electromechanical systems

6. Component models of the thermal systems, electrothermal analogy

7. Simulation of the electrothermal systems

8. Component models of the hydraulic systems, simulation

9. Software tools for the simulation of the manufacturing systém

10. Compiling of manufacturing system model

11. Optimizing of buffer capacity in the model

12. Principles of the model creating

13. Design of the model, simulation

14. A credit

Study Objective:

Study materials:

[1] WITNESS - creating WITNESS models. Lanner Group 1996

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Technologické systémy -inženýrský blok (compulsory course)
• Technologické systémy -inženýrský blok (compulsory course)