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Industrial Engineering

Language of instruction

english, lithuanian

Qualification degree and (or) qualification to be awarded

Bachelor of Engineering Sciences

Place of delivery

Kaunas, K. Donelaičio g. 73, LT-44249

Institution that has carried out assessment

Studijų kokybės vertinimo centras

Institution that has performed accreditation, accreditation term

Studijų kokybės vertinimo centras, 8/31/2020

Data provided or updated (date)

1/18/2024

Order on accreditation

SV6-15
More about programme

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Summary of the Profile

Knowledge and its Application:
A1 Is able to define the essential foundations of natural sciences and mathematics necessary to master the fundamentals of manufacturing engineering;
A2 Is able to explain basic theoretical and applied fundamentals and concepts of materials science, mechanics, process engineering, smart manufacturing, electrical engineering, electronics, automation and quality assurance;
A3 Is able to associate knowledge of production engineering and engineering fundamentals;
A4 Is able to apply methodologies of other scientific fields to solve multidisciplinary engineering tasks.
Special (engineering analysis and design) Skills:
B1 Is able to plan engineering activities to solve technological production problems related to the evaluation of quantitative and qualitative indicators;
B2 Is able to plan engineering activities to solve technological production problems related to the evaluation of quantitative and qualitative indicators;
B3 Is able to apply analytical, mathematical modeling and practical experimental methods.
Research Skills and Practical Activities:
C1 Is able to apply engineering design knowledge in accordance with established requirements in the design and development of mechanical systems and sustainable technological production processes that meet the principles of human safety, environmental protection and sustainable design; Knowledge and its Application:
A1 Is able to define the essential foundations of natural sciences and mathematics necessary to master the fundamentals of manufacturing engineering;
A2 Is able to explain basic theoretical and applied fundamentals and concepts of materials science, mechanics, process engineering, smart manufacturing, electrical engineering, electronics, automation and quality assurance;
A3 Is able to associate knowledge of production engineering and engineering fundamentals;
A4 Is able to apply methodologies of other scientific fields to solve multidisciplinary engineering tasks.
Special (engineering analysis and design) Skills:
B1 Is able to plan engineering activities to solve technological production problems related to the evaluation of quantitative and qualitative indicators;
B2 Is able to plan engineering activities to solve technological production problems related to the evaluation of quantitative and qualitative indicators;
B3 Is able to apply analytical, mathematical modeling and practical experimental methods.
Research Skills and Practical Activities:
C1 Is able to apply engineering design knowledge in accordance with established requirements in the design and development of mechanical systems and sustainable technological production processes that meet the principles of human safety, environmental protection and sustainable design;
C2 Is able to apply various engineering design methodologies to create and improve integrated manufacturing processes.
Personal (decision-making, lifelong learning, cooperation and teamwork) Skills:
D1 Is able to find information related to the field of study in databases and other information sources and publications;
D2 Is able to carry out experiments combining skills in designing experiments, selecting methods, observing and measuring processes and properties and providing comprehensive conclusions;
D3 Is able to use laboratory equipment suitable for mastering the specific issues of production engineering.
Additional Knowledge and Skills:
E1 Is able to work independently and effectively in a multi-competency team;
E2 Is able to communicate versatilely in native and at least one foreign language with specialists and the public in different fields;
E3 Is able to plan activities in accordance with professional ethics, applying productive work methods, connecting technological solutions with economic and environmental impacts and commercial solutions;
E4 Is able to organize activities according to the principles of organizing sustainable production activities, assessing fire safety recommendations and requirements.Activities of teaching and learning:
The studies include classroom work (lectures, practical work, laboratory work, consultation seminars, outgoing visits to enterprises, etc.) and individual work for mastering theoretical material, preparation for classroom work, intermediate and final assessments and performing other activities. The studies of each study module are completed by the assessment of the student’s knowledge and skills – an examination or another final assessment; the study programme is completed by the final degree project and its defence.
The study methods of active learning, such as design (programming), design thinking, challenge-based learning, creative workshops, group work, experiential learning, discussion, problem-based learning, reflective learning, idea (mind) mapping, etc. are applied to encourage the active participation and creativity of students in the study process. The achievements are assessed using the traditional assessment methods, such as laboratory examination, assignments, laboratory or project report, as well as other methods: work or competency file (portfolio), problem-solving task, engineering project, reflection on action, self-assessment, etc.

Methods of assessment of learning achievements:
The applied cumulative assessment system of the learning outcomes ensures constant and involving work of students during the entire semester of studies; the final evaluation of the study module consists of the sum of the grades of intermediate assessments and the final assessment multiplied by the weighting coefficients (percentages of components).
The number of intermediate assessments and their expression in percentage are chosen by the study module’s coordinating lecturer. Besides the usual forms of assessment (for example, examination, oral presentation, project report, laboratory examination), an additional form of assessment “Assessment of student activity (level)” may be applied (up to 10% of the final grade) for the assessment of the student’s preparation for case analysis, an active discussion, participation in debates, etc. Framework:
Study subjects (modules), practical training:
Advanced Manufacturing Technologies, Applied Thermodynamics and Fluid Mechanics, Bachelor’s Degree Final Project, Business Ethics, Computer-Aided Design, Engineering Analysis and Optimal Design, Engineering Drawing, Engineering Mechanics, Ergonomics and Safety, Fundamentals of Digital Manufacturing and Mechatronics, Fundamentals of Electrotechnics and Electronics, Fundamentals of Mechanical Systems Design, General Chemistry, Industrial Manufacturing Technologies, Information Technologies for Engineers, Integrated Manufacturing Practice, Introduction to Speciality, Manufacturing Planning and Control, Mathematics 1, Mathematics 2, Measurements and Control, Metals and Ceramics, Natural and Synthetic Polymers, Physics 1, Product Development Project, Professional Internship, Project Management, Quality Assurance, Semester Project, Theory of Probability and Statistics.
Specialisations:
Additive Manufacturing and Prototyping, Digitalization in Design and Manufacturing, Fundamentals of Enterprises Management, Human Resources Management, Industry 4.0 Transformations, Innovation Management, Micro and Macroeconomics, Smart Robotic Production.
Optional courses:
Electives of Philosophy and Sustainable Development 2024:
Media Philosophy, Sustainable Development;
Foreign Language Electives (Level C1) 2024:
Academic and Technical Communication in English (Level C1), Russian Language (Level C1), German Language (Level C1), French Language (Level C1);
Optional Subjects 2024.
Distinctive features of a study programme:
A graduate has knowledge of industrial production engineering and technology, classical mechanics, knows the social and multidisciplinary context of engineering, various product and technology design and experimental research methodologies.
Access to professional activity or further study:
Access to professional activity:
The graduate can carry out designing, organizational and control of manufacturing-technical maintenance and other engineering work in all production and service enterprises or other research institutions and organizations providing engineering services and technical support.
Access to further study:
S/he has access to the second cycle studies.