Synthesis of Mechatronics Systems
BASIC DATA
course listing
A - main register
course code
RAE0830
course title in Estonian
Mehhatroonikasüsteemide süntees
course title in English
Synthesis of Mechatronics Systems
course volume CP
2.00
ECTS credits
3.00
to be declared
yes
assessment form
Graded assessment
teaching semester
autumn - spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
no
Structural units teaching the course
EV - Virumaa College
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Anda mehhanismide sünteesi oskusi, kasutades tänapäevaseid programme (tarkvarapaketid); anda peamised mehhanismide sünteesi võtted, mida nõutakse tänapäevases inseneritöös; õpetada üliõpilasi rakendama erinevates ainetes (sh tugevusõpetus ja teoreetiline mehaanika) saadud teadmisi praktikas.
course aims in English
To give skills of mechanisms synthesis using modern programs (software packages); to provide the main techniques of mechanisms' synthesis required for the up-to-date engineering work; to teach students to apply knowledge obtained in diffenrent courses (including Strength of Materials and Theoretical Mechanics) in practice.
learning outcomes in the course in Est.
Aine läbinud üliõpilane (1) oskab sünteesida mehhanismi, kasutades erinevaid tarkvarapakette (sh Matlab, SolidWorks, Ansys); (2) teab peamisi mehhanismide sünteesi võtteid, mis on vajalikud tänapäevases inseneritöös; (3) oskab rakendada teoorias saadud teadmisi praktiliste ülesannete lahendamisel; (4) oskab probleeme meeskonnatööna lahendada.
learning outcomes in the course in Eng.
After passing the course a student (1) can synthesise mechanisms using different software packages (incl Matlab, SolidWorks, Ansys); (2) knows the mian techniques of mechanisms suthesis required in the modern engineering work; (3) is able to apply theoretical knowledge in practical tasks solving; (4) can solve problems via teamwork.
brief description of the course in Estonian
Tegemist on interdistsiplinaarset õpet sisalduva ainega. Projekt koostatakse meeskonnas, kuhu on kaasatud Tehnoloogiliste protsesside juhtimise, Rakendusinfotehnoloogia ja Tootmise automatiseerimise õppekavade üliõpilased.
Põhialused ja edaspidine programmeerimine ning simulatsiooni tegemine programmides SolidWorks, Matlab, Ansys. Matlab’i rakenduspaketi (SimMechanics) kasutamine. Matemaatilise pendli füüsikaline mudel. Modelleerimine robotmanipulaatori lihtsa haaratsimehhanismiga. Mehhatroonikasüsteemide arhitektuuri plaanimine. Mudeli kinnise kontuuri automaatjuhtimise pritsiibid.
Põhialused ja edaspidine programmeerimine ning simulatsiooni tegemine programmides SolidWorks, Matlab, Ansys. Matlab’i rakenduspaketi (SimMechanics) kasutamine. Matemaatilise pendli füüsikaline mudel. Modelleerimine robotmanipulaatori lihtsa haaratsimehhanismiga. Mehhatroonikasüsteemide arhitektuuri plaanimine. Mudeli kinnise kontuuri automaatjuhtimise pritsiibid.
brief description of the course in English
This is the subject involving interdisciplinary studies. The project is an example of a team work where the students of Technological Processes Management, Applied Information Technology and Industrial Automation curricula collaborate.
Basic principles and further programming and simulation in the programs SolidWorks, Matlab, Ansys. Use of Matlab application package (SimMechanics). Physical model of mathematical pendulum. Manipulator-robot simulation by a simple gripping mechanism. Mechatronic systems architecture planning. The principles of automatic control of the closed-loop model.
Basic principles and further programming and simulation in the programs SolidWorks, Matlab, Ansys. Use of Matlab application package (SimMechanics). Physical model of mathematical pendulum. Manipulator-robot simulation by a simple gripping mechanism. Mechatronic systems architecture planning. The principles of automatic control of the closed-loop model.
type of assessment in Estonian
eristav hindamine
type of assessment in English
grading
independent study in Estonian
Üliõpilased töötavad rühmas, enesekontrolli ülesannete tegemine, kirjanduse loetelu läbitöötamine ning projekti tegemine.
independent study in English
Students work in a team, self-control tasks carrying out, elaborating of the literature list and project making.
study literature
1. Мусалимов В.М., Заморуев Г.Б., Калапышина И.И., Перечесова А.Д., Нуждин К.А. МОДЕЛИРОВАНИЕ МЕХАТРОННЫХ СИСТЕМ В СРЕДЕ MATLAB (SIMULINK / SIMMECHANICS) //Учебное пособие НИУ ИТМО. - Санкт-Петербург, 2013. - 114 с.
2. Мусалимов В.М., Заморуев Г.Б., Калапышина И.И., Перечесова А.Д., Нуждин К.А. МОДЕЛИРОВАНИЕ МЕХАТРОННЫХ СИСТЕМ В СРЕДЕ MATLAB (SIMULINK / SIMMECHANICS) //Учебное пособие НИУ ИТМО. - Санкт-Петербург, 2013. - 114 с
3. Дьяконов В. П. Simulink 5/6/7: Самоучитель. – М.: ДМК – Пресс, 2008. – 784 с.: ил
4. J. Angeles. Fundamentals of Robotic Mechanical System. 2007
5. Norberto Pires. Industrial Robots programming. 2007
6. L. Meriam. Engineering. Mechanics. Dynamics. 2007
2. Мусалимов В.М., Заморуев Г.Б., Калапышина И.И., Перечесова А.Д., Нуждин К.А. МОДЕЛИРОВАНИЕ МЕХАТРОННЫХ СИСТЕМ В СРЕДЕ MATLAB (SIMULINK / SIMMECHANICS) //Учебное пособие НИУ ИТМО. - Санкт-Петербург, 2013. - 114 с
3. Дьяконов В. П. Simulink 5/6/7: Самоучитель. – М.: ДМК – Пресс, 2008. – 784 с.: ил
4. J. Angeles. Fundamentals of Robotic Mechanical System. 2007
5. Norberto Pires. Industrial Robots programming. 2007
6. L. Meriam. Engineering. Mechanics. Dynamics. 2007
study forms and load
daytime study: weekly hours
2.0
session-based study work load (in a semester):
lectures
0.5
lectures
0.0
practices
1.0
practices
6.0
exercises
0.5
exercises
2.0
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2023/2024 autumn
Tatjana Baraškova, EV - Virumaa College
Estonian