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Modelling and Simulation Using MATLAB and SimulinkLaajuus (2 op)

Tunnus: KTE2229

Laajuus

2 op

Opetuskieli

  • englanti

Vastuuhenkilö

  • Tuomo Liimatainen

Osaamistavoitteet

The learning outcomes of this subject are as follows:To obtain the knowledge from mathematical modelling of mechatronic systems, to be able to build a mathematical model of mechatronic system, to obtain the skills to create the simulation model in MATLAB-Simulink, run the simulation and simulate the response of the system on the input signal and to understand the basic principles of the computer simulation.The subject is focused on the basic methods of the mathematical physical modelling and creating of the mathematical models with lumped parameters and use of the simulation models in Mechatronics.

Avaa uuteen ikkunaan
Ilmoittautumisaika

01.04.2022 - 15.08.2022

Ajoitus

15.08.2022 - 19.08.2022

Opintopistemäärä

2 op

Toteutustapa

Lähiopetus

Yksikkö

Teknologia (LAB)

Toimipiste

Lappeenrannan kampus

Opetuskielet
  • Englanti
Koulutus
  • Bachelor's Degree Programme in Mechanical Engineering and Production Technology (2016-2021)
  • Bachelor’s Degree Programme in Mechanical Engineering (2021, 2022, 2023)
Opettaja
  • Tuomo Liimatainen
Vastuuopettaja

Tuomo Liimatainen

Opetusryhmät
  • Harjoitukset 1 (Koko: 0. Avoin AMK: 0.)
Ryhmät
  • MEC19
    Bachelor's Degree Programme in Mechanical Engineering and Production Technology 19S, Lappeenranta
  • TLPRMEC20S
    Bachelor's Degree Programme in Mechanical Engineering and Production Technology 20S Lappeenranta
  • MEC18
    Bachelor's Degree Programme in Mechanical Engineering and Production Technology 18S, Lappeenranta
  • TLPRMEC21S
    Bachelor's Degree Programme in Mechanical Engineering 21S Lappeenranta
Pienryhmät
  • Harjoitukset 1

Osaamistavoitteet

The learning outcomes of this subject are as follows:To obtain the knowledge from mathematical modelling of mechatronic systems, to be able to build a mathematical model of mechatronic system, to obtain the skills to create the simulation model in MATLAB-Simulink, run the simulation and simulate the response of the system on the input signal and to understand the basic principles of the computer simulation.The subject is focused on the basic methods of the mathematical physical modelling and creating of the mathematical models with lumped parameters and use of the simulation models in Mechatronics.

Toteutustapa ja opetusmenetelmät

Lectures and exam
Prof. Petr Noskievic Technical University of Ostrava Czech Republic
• Modelling, mathematical and simulation models, physical models, their use in engineering, overview of the methods of the analytical and experimental identification.
• Modelling of the mechanical systems, analytical methods of the creating of the mathematical model.
• Creating of the block diagram of the simulation model in Simulink.
• Modelling of the hydraulic systems, creation of the mathematical models and their realization in MATLAB-Simulink.
• Modelling of the electrical subsystems of the mechatronic systems.
• Programming and verification of the simulation model in MATLAB-Simulink.
• Case study of the use of the simulation models in the development cycle of the mechatronic system - modelling of the car suspension, car breaking, modelling of the ABS.
• Project solving

Arviointiasteikko

1-5

Hylätty (0)

Does not meet minimum competence

Arviointikriteerit: taso 1: (arviointiasteikko 1-5)

Minimum competence

Arviointikriteerit: taso 3 (arviointiasteikko 1-5)

Good competence

Arviointikriteerit: taso 5 (arviointiasteikko 1-5)

Excellent competence