Intelligent Manufacturing and Automation (IMA)

IMA Courses

Intelligent Manufacturing and Automation (IMA) Courses

The curriculum of the proposed Master’s program provides students with systematic training in intelligent manufacturing and automation engineering.

1st Year

Mandatory (DI)

Advanced of Computer Aided Technological Design

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 1 H

See course guide

Advanced Welding Theory

Course organizer:

*

L (lecture) - 2 H

LB (laboratory works) - 1 H

See course guide

Computer Aided Experimental Research

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 3 H

See course guide

Control Systems and Virtual Instrumentation

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 2 H

See course guide

Ethics and Academic Integrity

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 0 H

See course guide

Fluid Power Systems

Course organizer:

*

L (lecture) - 2 H

LB (laboratory works) - 1 H

See course guide

Non-Traditional Technologies

Course organizer:

*

L (lecture) - 2 H

LB (laboratory works) - 1 H

See course guide

Simulation in Manufacturing Systems

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 2 H

See course guide

Sustainable Product Development

Course organizer:

Vasile Merticaru

The course targets the development of professional cognitive and applicative skills in Sustainable Product Development, in relation with a set of connected areas (product design, ergonomics, ecology, marketing, industrial & intellectual property, advertising, DfX, CAD/CAM/CAx/PDM/PLM, industrial management) for advanced and intelligent manufacturing.
The course covers: Basic concepts in Sustainable Development; Fundamentals of Product/Process Development; Product Design in Sustainable Product Development; Life-Cycle Sustainability Assessment (LCSA); Elements of Industrial Design, Aesthetics and Ergonomics in Sustainable Product Development.
Project activities will approach a case study on E-LCA (Environmental Life-Cycle Assessment) using a calculation algorithm for EI99 sustainability indicator.

L (lecture) - 1 H

LB (laboratory works) - 0 H

See course guide

Technological Applications of Physics

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 1 H

See course guide

1st Year

Category (DL)

Entrepreneurial Skills

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 1 H

See course guide

1st Year

Elective (DO)

Manufacturing Risk Management

Course organizer:

*

L (lecture) - 2 H

LB (laboratory works) - 0 H

See course guide

Statistical Data Processing

Course organizer:

*

L (lecture) - 0 H

LB (laboratory works) - 0 H

See course guide

2nd Year

Mandatory (DI)

Advanced Manufacturing Automation Processes

Course organizer:

Vasile Merticaru

The course targets the development of professional cognitive and applicative skills in design and operation of manufacturing automation solutions for advanced and intelligent manufacturing.
The course lectures and laboratory activities cover: Basic concepts in advanced manufacturing automation processes; Principles of advanced manufacturing automation processes; Storage automation solutions in advanced manufacturing; Automated Conveyor Systems; Sorting automation solutions in advanced manufacturing; Programming elements for automation processes in advanced manufacturing.

L (lecture) - 2 H

LB (laboratory works) - 1 H

See course guide

Advanced Manufacturing Technologies of Composite Materials

Course organizer:

*

L (lecture) - 2 H

LB (laboratory works) - 1 H

See course guide

Advanced Welding Technologies

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 1 H

See course guide

Artificial Intelligence in Manufacturing

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 2 H

See course guide

2nd Year

Elective (DO)

Enterprise Resources Planning

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 0 H

See course guide

Sustainable Development by Technological Innovation

Course organizer:

*

L (lecture) - 1 H

LB (laboratory works) - 0 H

See course guide

Structure of the Academic Year 2023– 2024

Bachelor and Master Studies, Full Time Studies

DATE

PERIOD

ACTIVITY

25.09.2023–01.10.2023

7 days

Accommodation of students

02.10.2023

The Official Opening of the Academic Year

1st SEMESTER

02.10.2023-22.12.2023

12 Weeks

Didactic Activity

23.12.2023-07.01.2024

2 Weeks

Christmas Holiday

08.01.2024- 21.01.2024

2 Weeks

Didactic Activity

22.01.2024-11.02.2024

3 Weeks

Examination Period

12.02.2024-18.02.2024

1 Week

Winter Holiday

2nd SEMESTER

19.02.2024-02.05.2024

11 Weeks

Didactic Activity

03.05.2024-12.05.2024

1 Week

Easter Holiday

07.05.2024

Free Day For Students (to be recovered on Saturday 25.05.2024)

13.05.2024-02.06.2024

3 Weeks

Didactic Activity

03.06.2024-23.06.2024

3 Weeks

Examination Period

02.09.2024-15.09.2024

2 Weeks

Reexamination Period

17 and 18.09.2024

2 Days

Re examinations

2nd SEMESTER for the final year of study (bachelor + master)

19.02.2024-02.06.2024

14 + 1 Weeks

Re Didactic Activity and Easter Holiday According To The Previous Calendar

03.06.2024-16.06.2024

2 Weeks

Examination period

17.06.2024-20.06.2024

4 days

Reexamination period

27.06.2024-07.07.2024

11 days

Period for preparing the final thesis

Legal and Religious Holidays:
30.11.2023, 01.12.2023, 25.12.2023 , 26.12.2023, 01.01.2024. 02.01.2024, 24.01.2024 01.05.2024, 03.05.2024, 06.05.2024, 01.06.2024, 24.06.2024, 15.08 2024.

Practical Activities (3 -6 Weeks)
will be scheduled either during the entire academic Year