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Industrial Design Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
To prepare specialists who have knowledge of product development and engineering design.
Learning outcomes:
Knowledge and Understanding:
A1 Knowledge of industrial design engineering mathematics and other basic sciences concepts, principles, existing natural phenomena, laws, and their expressions.
A2 Knowledge of philosophy, communication, product design, engineering graphics, information technologies, materials science, electronics, mechanical engineering, entrepreneurship, individual and personal health education, socio-economic activities, intellectual property.
A3 Consistent knowledge of industrial design engineering; including essential product design specificities, design and development principles, material properties, production technologies, quality assurance principles.
A4 Awareness of the multidisciplinary context of the industrial design engineering and product development;
A5 Understanding of the essential aspects and concepts of the industrial design engineering.
Engineering Analysis:
B1 Apply knowledge and understanding to define of engineering problems related with products design, to identify the product requirements, to choose proposition engineering solutions, and most suitable way to its correct implementation.
B2 Ability to analyse design features of product at various levels of development and to provide their implementation strategy.
B3 Ability to apply engineering analysis methods, including mathematical analysis, computational modelling or practical experiments, for the analysis of product design related engineering problems.
B4 Ability to analyse complex engineering problems and decisions made, depending on the social, health, safety, environmental, and commercial restrictions.
Engineering Design:
C1 Apply knowledge and understanding to create attractive products, taking account of the design, technical, social, health, safety, environmental, commercial and other defined requirements.
C2 Understanding of the engineering design methods.
C3 Ability to apply engineering design methods to create attractive products.
Investigations:
D1 Ability to conduct searches of literature using data bases and other sources of information in order to identify and formulate industrial design engineering problems.
D2 Ability to conduct experimental investigations in order to solve industrial design engineering problems.
D3 Ability to interpret data and draw conclusions.
D4 Skills for working with engineering equipment.
Engineering Practice:
E1 Ability to apply appropriate techniques and methods in order to solve industrial design engineering problems.
E2 Ability to combine theory and practice solving industrial design engineering problems, creating attractive products, and improving practical skills.
E3 Understanding of engineering activities impact on society and the environment.
E4 Understanding of organizational principles of engineering activities, importance and the basic requirements of safety at work.
Engineering Practice:
F1 Ability to function effectively as an individual and as a member of a team.
F2 Ability to communicate with the engineering community and with society at large.
F3 Holistically understand the impact of engineering activities on society and environment.
F4 Awareness of responsibility for engineering activities.
F5 Understanding the links between engineering decisions to their economic consequences.
F6 Ability to recognise the need for and to engage in independent life-long learning.
Activities of teaching and learning:
Material of the study module is gained both by activity in auditorium and individual work. Activity in auditorium includes lectures, group research and practical work. Individual work is comprised by study of theoretical material, preparation for lectures, group research and practical work, midterms and exam. It also includes preparation of homework, projects and other activities.
Study programme is accomplished by final degree project.
Methods of assessment of learning achievements:
Knowledge, abilities and skills, that the student will acquire during the course of the programme, are graded and registered to databases twice: during the evaluation of the student‘s independent work (positive or negative grade) and during the exam session (grade in ten-point scale).
The final degree project is defended in the public session of the studies’ branch qualification committee.
Framework:
Study subjects (modules), practical training:
The future graduates of this study programme study entrepreneurship and personality development, applied materials science and engineering technologies, basics of 3D design and product development strategy, innovative product design and CAD, and other subjects. In total, 44 subjects are studied in the programme.
The studies include the practice (15 credits) is performed in public and private organizations, institutions and enterprises.
Specialisations:
-
Optional courses:
Possibility to choose the subjects of two electives blocks (30 credits).
Distinctive features of a study programme:
Joint management agreements with Vilnius Academy of Arts (Faculty of Kaunas). Minor studies in Product design (60 credits)
Access to professional activity or further study:
Access to professional activity:
The graduate can work in design, engineering and in other professional fields related to the identification criteria and development, computer design and modelling, testing and manufacturing consumer products or other types of products.
Access to further study:
The graduate has access to the second cycle studies.
