Education at Mechatronic Design speciality is oriented on solving problems of various scope and complexity level, individually or in teams in the course of project or lab classes with the use of knowledge based methods.
The students are taught with the aim of gaining: knowledge concerning design of integrated systems composed of cooperating mechanical, electronic, control and software components, skill of application of computer aided engineering tools to design and testing of mechatronic systems with the use of virtual and rapid prototyping techniques, ability of working in multidisciplinary teams as well as awareness of need for continuous perfecting of professional qualifications.
The speciality’s graduates are being employed as designers and integrators of mechatronic systems, maintenance engineers or they become individual entrepreneurs.
Typical employers of the graduates are companies offering engineering services, design units, factories as well as research and development institutions.
The graduates may continue education at the Mechanical Engineering based 3rd cycle or postgraduate study 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 (Mechatronic Design)
Study programme determined by Resolution No. 112/2019 of the AGH UST Senate of 26 June 2019
Summer semester, 2020/2021
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Humanities and social elective module block
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Total number of contact hours:
28
|
2
|
Completing the classes
|
O |
|
The rules for selecting groups/modules: Student selects one module from the block.
|
|
Management engineering
|
Lectures:
30
|
2
|
Completing the classes
|
W |
|
Public communication
|
Laboratory classes:
28
|
2
|
Completing the classes
|
W |
|
Ergonomy
|
Lectures:
28
|
2
|
Completing the classes
|
W |
|
Company management
|
Lectures:
28
|
2
|
Completing the classes
|
W |
|
Mechatronic system indentification
|
Lectures:
42
Laboratory classes:
26
Project classes:
28
|
7
|
Exam
|
O |
|
Kinematics and dynamics of mechatronic systems
|
Lectures:
42
Laboratory classes:
26
Project classes:
28
|
7
|
Exam
|
O |
|
Mechatronics
|
Lectures:
28
Laboratory classes:
56
Project classes:
14
|
8
|
Exam
|
O |
|
Informatics in mechatronics
|
Lectures:
28
Laboratory classes:
26
Project classes:
14
|
6
|
Completing the classes
|
O |
Winter semester, 2021/2022
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Mechatronic systems
|
Lectures:
28
Project classes:
52
|
5
|
Exam
|
O |
|
Block of elective foreign language modules
|
Total number of contact hours:
42
|
3
|
Completing the classes
|
O |
|
The rules for selecting groups/modules: Student selects one module from the block.
|
|
Uncertainty Analysis in Engineering
|
Lectures:
15
Laboratory classes:
15
Project classes:
15
|
5
|
Exam
|
W |
|
Nanosatellite attitude determination and control
|
Lectures:
20
Laboratory classes:
18
Project classes:
22
|
6
|
Exam
|
O |
|
Smart materials and structures
|
Lectures:
28
Laboratory classes:
14
Project classes:
14
|
3
|
Completing the classes
|
W |
|
3D printing technology
|
Lectures:
28
Laboratory classes:
28
|
3
|
Completing the classes
|
W |
|
MEMS fabrication systems
|
Lectures:
14
Laboratory classes:
28
|
3
|
Completing the classes
|
W |
|
Specialized English course
|
Foreign language classes:
30
|
2
|
Exam
|
O |
|
The rules for selecting groups/modules: Student selects one module from the block.
|
|
English B2+ course - compulsory ESP course for students of SECOND-CYCLE STUDIES in MECHATRONICS with ENGLISH as the instruction language at the Faculty of Mechanical Engineering and Robotics
|
Foreign language classes:
30
|
2
|
Exam
|
W |
|
English B2+ course - compulsory course for students of SECOND-CYCLE STUDIES
|
Foreign language classes:
30
|
2
|
Exam
|
W |
|
English B2+ course - compulsory course for students of SECOND-CYCLE STUDIES at the Faculty of Computer Science, Electronics and Telecommunications (Computer Science)
|
Foreign language classes:
30
|
2
|
Exam
|
W |
|
Mechatronic design
|
Lectures:
56
Laboratory classes:
56
Project classes:
42
|
8
|
Exam
|
O |
|
Individual research project related to mechatronic design
|
Project classes:
0
|
7
|
Completing the classes
|
O |
|
Electronics in mechatronics
|
Lectures:
28
Laboratory classes:
42
|
5
|
Exam
|
O |
Summer semester, 2021/2022
|
Block of modules elective on a specialization
|
Total number of contact hours:
30
|
2
|
Completing the classes
|
O |
|
The rules for selecting groups/modules: Student selects one module from the block.
|
|
Design of composite parts
|
Lectures:
10
Laboratory classes:
20
|
2
|
Completing the classes
|
W |
|
Operation and maintenance of mechatronic devices
|
Lectures:
10
Laboratory classes:
10
Seminars:
10
|
2
|
Completing the classes
|
W |
|
Embedded systems
|
Lectures:
10
Laboratory classes:
20
|
2
|
Completing the classes
|
W |
|
Diploma Training
|
Thesis-internship programme:
0
|
2
|
Completing the classes
|
O |
|
Diploma Thesis
|
Diploma Thesis:
0
|
20
|
Completing the classes
|
W |
|
Project management in RES
|
Lectures:
20
Laboratory classes:
10
Seminars:
10
|
3
|
Completing the classes
|
O |
|
MEMS and nanotechnology
|
Lectures:
10
Laboratory classes:
10
|
2
|
Completing the classes
|
O |
|
Diploma Seminar
|
Seminars:
15
|
1
|
Completing the classes
|
O |
