| Information |
| Theoretical |
 Understand, interpret and apply knowledge in his/her field domain both in-depth and in-breadth by doing scientific research in industrial engineering.
Acquire comprehensive knowledge about methods and tools of industrial engineering and their limitations.
Design and perform analytical modeling and experimental research and analyze/solve complex matters emerged in this process.
|
|
| Applied |
Complete and apply the knowledge by using scarce and limited resources in a scientific way and integrate the knowledge into various disciplines.
Keep up with the recent changes and applications in the field of Industrial Engineering and analyze these innovations when necessary.
Have the ability to propose new and/or original ideas and methods in developing innovative solutions for designing systems, components or processes.
|
| Skills |
| Conceptual/Cognitive |
|
|
| Applied |
Analyze Industrial Engineering problems, develop innovative methods to solve the problems.
|
| Personal and Professional Qualifications |
| Competence to Work Independently and Take Responsibility |
Work in multi-disciplinary teams and take a leading role and responsibility.
Identify, gather and use necessary information and data.
|
|
| Learning Competency |
Follow, study and learn new and developing applications of industrial engineering.
|
|
| Communication and Social Competence |
Use a foreign language in verbal and written communication at least B2 level of European Language Portfolio.
Present his/her research findings systematically and clearly in oral and written forms in national and international platforms.
Understand social and environmental implications of engineering practice.
|
|
| Field-Specific and Professional Competence |
Consider social, scientific and ethical values in the process of data collection, interpretation and announcement of the findings.
Work in multi-disciplinary teams, take a leading role and responsibility and develop solutions for complex problems.
|
|