No.	Source	Knowledge	Skills	Responsibility and autonomy
1	EQF	Advanced knowledge of a field of work or study, involving a critical understanding of theories and principles	Advanced skills, demonstrating mastery and innovation, required to solve complex and unpredictable problems in a specialised field of work or study	Managing complex technical or professional activities or projects, taking responsibility for decision – making in unpredictable work or study contexts; take responsibility for managing the professional development of individuals and groups
2	IQF	Mastering theoretical concepts of a field in general and a subfield within the field deeply, and formulating solutions to problems procedurally.	Being able to apply their field of expertise and utilise science, technology, and/or art in their field of problem – solving and able to adapt to the situation at hand.	Being able to make the right decisions based on analysis of information and data, and able to guide in choosing various alternative solutions independently and in groups;   Responsible for own work and can be given responsibility for the achievement of the organisation’s work.
3	IQF – Engineering	Mastering basic science and engineering in choosing technology to solve problems in engineering.	Being able to describe and analyse problems, and make the right decisions to choose solutions to problems encountered or create innovations through the use of knowledge and technology that have been mastered. Being able to design, realise the design, and control an engineering system Being able to assess the efficiency and effectiveness of part or all of a series of technology – based processes applied in the field of work. Professionally mastering managerial skills in working in the engineering field Being able to carry out research in the field of engineering under scientific principles.	Being able to make strategic decisions based on scientific analysis in engineering to reduce the impact of technology application on environmental, energy, and human life issues.

Source

Mechanical Engineering (ME)

Mastering theoretical concepts of natural sciences and mathematics Mastering theoretical concepts, engineering sciences, engineering principles, and engineering designs needed in a mechanical engineering field Mastering principles of software methods in an engineering field Mastering concepts and principles of environment conservation Mastering concepts and principles of Occupational, Health, Safety, and Security (OHSAS) in the laboratory and the field Understanding the economy and socio – culture principles and current issues Understanding communication for specific purposes, general concepts, principles, and techniques Having good outlooking into the development of the newest technology, mechanical engineering advanced materials, and related matters Being able to know and identify natural resources, especially in coastal areas

Being able to apply logical, critical, systematic, and innovative thinking in the field of the development and implementation of science and technology related to humanities values under experiment Being able to demonstrate independent, quality, and measurable performance Being able to study the implications of the development or implementation of science and technology that pays attention to and applies humanities values according to their expertise based on scientific principles, procedures, and ethics to produce solutions, ideas, designs, or art criticisms Being able to compile a scientific description of the results of the studies mentioned above in the form of a thesis or final project report, and upload it on the university’s website Being able to make appropriate decisions in the context of solving problems in their area of expertise, based on the results of analysis of information and data Being able to maintain and develop work networks with supervisors, and colleagues both inside and outside the institution. Being able to be responsible for the achievement of group work results and supervise and evaluate the completion of work assigned to workers under his responsibility Being able to carry out self – evaluation process of the work group under his responsibility, and able to manage independent learning Being able to document, store, secure, and rediscover data to ensure validity and prevent plagiarism

Being able to master science and engineering knowledge Being able to provide solutions in the form of design and development taking into account the environment and sustainability Being able to identify and analyse engineering problems. Being able to provide engineering solutions regard to an environmental conservation concern. Being able to implement the principles of Occupational, Health, Safety, and Security (OHSAS) in a mechanism planning or planning and implementation project. Being able to provide engineering solutions concerning professional ethics and economic and socio – cultural awareness Being able to communicate effectively in engineering, both in small and large groups. Being able to engineer in mechanics by concerning the latest technology and advanced materials, and conducting long life learning in mechanical engineering Being able to engineer in renewable energy, especially in coastal areas