Mechatronic Engineering with English as instruction language
Mechatronic engineering is the interdisciplinary program composed of basic courses (e.g. mathematics, physics), major courses (e.g. mechanics, control theory, computer science, electronics) as well as of specialty courses. Contents of major and specialty courses comprise techniques of computer aided engineering, problems of virtual prototyping, elements of modern control and basics of robotics. Students learn about methods and tools for analysis and synthesis of mechatronic systems and integration in mechatronics. The aim of the Mechatronics engineering first cycle study program is to build the students’ engineering knowledge considered as theoretical background and practical engineering problems. The study comprises laboratory and project classes where students gather practical engineering skills. The study in Mechatronic engineering prepares to work in interdisciplinary teams that design, manufacture and/or utilize various mechatronic systems. The interdisciplinary knowledge helps the program graduates to communicate with other engineers in the course of solving the practical, complex engineering problems. The graduates of the program are prepared to work in: design units, research and development institutions as well as in companies that manufacture or use mechatronic devices. The graduates are also prepared to continue study at the Master level both at home University (Faculty of Mechanical Engineering and Robotics offers second level Mechatronic engineering program) and at other faculties or universities in Poland or abroad.
Mentor of the field of study: dr hab. inż. Wojciech Lisowski, prof. AGH
View full description of the field of study
Winter semester, 2023/2024
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Economy
|
Lectures:
28 |
2 | Completing the classes | O |
Physics 1
|
Lectures:
15 Auditorium classes: 15 |
4 | Completing the classes | O |
Chemistry
|
Lectures:
30 Laboratory classes: 30 |
6 | Exam | O |
Basic of informatics
|
Lectures:
45 Laboratory classes: 28 |
5 | Exam | O |
Sports 1
|
Physical education classes:
30 |
- | Completing the classes | O |
Mathematics 1
|
Lectures:
60 Auditorium classes: 90 |
13 | Exam | O |
Sum | 371 | 30 |
Summer semester, 2023/2024
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Sports 2
|
Physical education classes:
15 |
- | Completing the classes | O |
Mechanics 1
|
Lectures:
30 Auditorium classes: 30 |
5 | Completing the classes | O |
Foreign language 1
|
Foreign language classes:
30 |
- | Completing the classes | O |
Basics of mechatronics
|
Lectures:
14 Laboratory classes: 28 Project classes: 28 |
4 | Completing the classes | O |
Fundamentals of material science
|
Lectures:
36 Laboratory classes: 24 |
5 | Exam | O |
Mathematics 2
|
Lectures:
30 Auditorium classes: 30 |
5 | Exam | O |
Physics II
|
Lectures:
45 Auditorium classes: 30 Laboratory classes: 15 |
8 | Exam | O |
Computer networks and databases
|
Laboratory classes:
28 |
3 | Completing the classes | O |
Sum | 413 | 30 |
Winter semester, 2024/2025
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Foreign language 2
|
Foreign language classes:
45 |
- | Completing the classes | O |
Mechanics 2
|
Lectures:
30 Auditorium classes: 30 |
5 | Exam | O |
Sports 3
|
Physical education classes:
15 |
- | Completing the classes | O |
Strength of materials
|
Lectures:
30 Auditorium classes: 26 Laboratory classes: 15 |
5 | Exam | O |
Manufacturing processes
|
Lectures:
14 Auditorium classes: 14 |
2 | Completing the classes | O |
Engineering drawing
|
Lectures:
26 Project classes: 42 |
5 | Completing the classes | O |
Control theory fundamentals
|
Lectures:
28 Auditorium classes: 20 Laboratory classes: 14 |
5 | Exam | O |
Metals and plastics process engineering
|
Lectures:
14 Laboratory classes: 26 |
2 | Completing the classes | O |
Numerical methods and statistics
|
Lectures:
28 Auditorium classes: 14 Laboratory classes: 14 |
4 | Completing the classes | O |
Sum | 445 | 28 |
Summer semester, 2024/2025
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Signal processing and identification
|
Total number of contact hours:
172 |
15 | Completing the classes | O |
Foreign language 3
|
Foreign language classes:
60 |
5 | Exam | O |
Fundamentals of design of mechanisms in mechatronic devices
|
Lectures:
48 Laboratory classes: 14 Project classes: 39 |
8 | Exam | O |
Fundamentals of electronics
|
Lectures:
28 Laboratory classes: 28 |
4 | Completing the classes | O |
Sum | 389 | 32 |
Winter semester, 2025/2026
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Robotics
|
Total number of contact hours:
121 |
13 | Completing the classes | O |
Virtual prototyping in design
|
Lectures:
14 Laboratory classes: 42 |
4 | Completing the classes | O |
Actuating, sensing and control mechatronic systems
|
Lectures:
65 Laboratory classes: 60 Project classes: 44 |
15 | Exam | O |
Sum | 346 | 32 |
Summer semester, 2025/2026
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Apprenticeship
|
Practical placement:
0 |
4 | Completing the classes | O |
Mechatronic design
|
Lectures:
14 Laboratory classes: 20 Project classes: 22 |
5 | Completing the classes | O |
Object oriented programming and software engineering
|
Lectures:
42 Laboratory classes: 70 Project classes: 14 |
10 | Exam | O |
Control theory
|
Lectures:
42 Auditorium classes: 28 Laboratory classes: 34 |
9 | Exam | O |
Sum | 286 | 28 |
Winter semester, 2030/2031
Course | Number of hours | ECTS credits | Form of verification | |
---|---|---|---|---|
Enterprise and management
|
Total number of contact hours:
20 |
2 | Completing the classes | O |
Block of specialty elective modules
|
Total number of contact hours:
30 |
2 | Completing the classes | O |
Law and intellectual property in technology
|
Total number of contact hours:
20 |
2 | Completing the classes | O |
Block of elective foreign language modules
|
Total number of contact hours:
50 |
4 | Completing the classes | O |
Diploma Seminar
|
Seminars:
15 |
1 | Completing the classes | O |
Computer aided manufacturing
|
Lectures:
14 Laboratory classes: 28 Project classes: 10 |
4 | Completing the classes | O |
Final Project
|
Diploma Thesis:
0 |
15 | Completing the classes | O |
Sum | 187 | 30 |