Analysis and Simulation of Production Systems

The course is a substitute for:

Analysis and Simulation of Manufacturing Systems (13ASV)

Lecturer:

Tutor:

Supervisor:

Department of Electrotechnology

Synopsis:

Production system and its environment, methods of the analysis and synthesis, simulation use. Dynamic behaviour of production system, mathematical models, parameters identification. Static behaviour of production system, mathematical models, parameters identification. Simulation of electrical, mechanical, thermal and hydraulic subsystems. Optimal control of production system, analytic and experimental methods of output function optimum retrieval. Stochastic behaviour of production system caused by failures and repairs, effect of buffers and service, simulation of processing line operation.

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.Production system and its environment, process of analysis and synthesis, modelling and simulation.

2.Dynamic features of system elements, decomposition, linearization.

3.Mathematical models of dynamic system, mutual relationship, behaviour prediction.

4.Dynamic system parameters identification.

5.Models of decomposed system, multidimensional systems.

6.Static features of production system, mathematical models.

7.Static system parameters identification, experimental methods.

8.Analytic and experimental methods of output function optimum retrieval.

9.Incompletely defined models of production system, fuzzy control application.

10.Stochastic behaviour of production system, failures and failure statistics.

11.Efficiency of faulty machine, machine pair with buffer.

12.Service in the manufacturing process, influence on efficiency.

13.Simulation of stochastic features of production system.

14.Efficiency of the processing line, buffers optimisation.

Syllabus of tutorials:

1.Fundamental methods of computer aided system simulation, program tools.

2.Simulation of electrical systems.

3.Examples of electrical systems simulation.

4.Specific features of power semiconductor converters simulation, examples.

5.Models of mechanical system components, electromechanical analogy.

6.Examples of mechanical systems simulation.

7.Models of thermal system components, electrothermal analogy.

8.Examples of thermal systems simulation.

9.Models of hydraulic system components, electrohydraulic analogy.

10.Examples of hydraulic systems simulation.

11.Application of program tool for stochastic behaviour simulation.

12.Examples of processing lines simulation.

13.Simulation of processing line operation, analysis of efficiency and exploitation.

14.A credit.

Study Objective:

Student will meat with static and dynamic models of processes and will learn to optimize them.

Study materials:

1. Witness - User Manual. London: Lanner Group. 1998

Note:

Further information:

No time-table has been prepared for this course

The course is a part of the following study plans:

• Heavy-current Engineering - Technological Systems- structured studies (compulsory elective course)
• Heavy-current Engineering - Electric Drives- structured studies (compulsory elective course)
• Heavy-current Engineering - Electroenergetics- structured studies (compulsory elective course)
• Heavy-current Engineering - Electrical Engineering Applications- structured studies (compulsory elective course)