1. SylabUZ
2. Faculty of Mechanical Engineering
3. winter term 2023/2024
4. Management and Production Engineering - Second-cycle studies leading to MSc degree
5. Computer-Aided design and simulation of manufacturing processes

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Computer-Aided design and simulation of manufacturing processes - course description

Aim of the course

The aim of the course is to acquaint students with the method of computer simulation and familiarization with the techniques of building simulation models of processes and production systems. After completion of the course students should be able to use the selected software to simulate production processes (eg. Tecnomatix Plant Simulation, Enterprise Dynamics, Arena, etc.), model building (mapping the actual system in a form of a simulation model), Designing of simulation experiments and analysis of research results.

Prerequisites

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Knowledge of basic production processes implemented in enterprises.

Scope

Computer simulation as a research method - introduction. Stages of the construction of a simulation model. Generating pseudorandom data based on various probability distributions. Basic objects needed to build the simulation model of the production system. Planning of a simulation experiment. Modelling and simulation of discrete manufacturing processes. Modelling and simulation of assembly processes. Analysis of the efficiency of utilization of production resources. Analysis of the efficiency of logistics processes and inventory levels of work in progress. Analysis of the effectiveness of employees on the basis of a simulation model of the production system.

L1. Introduction to modeling production processes in Tecnomatix Plant Simulation.

L2, L3 - Modeling and simulation of discrete processes - basic models. 

L4, L5 - Modeling of production processes with the use of AGV trucks.

L6, L7 - Analysis of the efficiency of production processes.

L8, L9 - Modeling of production processes carried out with the participation of employees (machine operators).

L10, L11 - Modeling of production logistics processes with the use of pallets. Production flow models for different production batch sizes.

L12, L13 - Modeling and simulation of energy consumption in production systems.

L14, L15 - Designing simulation experiments. Implemantation of artificial intelligence methods. 

Teaching methods

Laboratory – practical classes carried out with the use of Tecnomatix Plant Simulation..

Learning outcomes and methods of theirs verification

Outcome description	Outcome symbols	Methods of verification	The class form

Assignment conditions

Laboratory – final grade is the weighted sum of grades obtained for the completion of individual laboratory classes.

Recommended reading

1. S. Bangsow, Tecnomatix Plant Simulation: Modeling and Programming by Means of Examples, Springer; 2016
2. S. Bangsow, Manufacturing Simulation with Plant Simulation and Simtalk: Usage and Programming with Examples and Solutions, Springer, 2010
3. G. L. Curry, R. M. Feldman, Manufacturing Systems Modeling and Analysis, Springer, 2010
4. S. Kłos, The simulation of manufacturing systems with Tecnomatix Plant Simulation, Wydawnictwo UZ, 2017

Further reading

1. Tecnomatix on-line documentation

Notes

Modified by dr hab. inż. Sławomir Kłos, prof. UZ (last modification: 14-04-2023 15:05)