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Industrial Design Engineering
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Summary of the Profile
Objective(s) of a study programme:
To provide interdisciplinary, research-based and art-based theoretical and practical knowledge of production engineering and industrial design, and develop the skills to apply it creatively in the design and development of products that meet the needs of consumers, taking into account the principles of a circular economy.
Description of the study programme: https://admissions.ktu.edu/programme/b-industrial-design-engineering/
Learning outcomes:
Knowledge and its Application:
Is able to describe the natural science and mathematical concepts and principles necessary to comprehend the fundamental foundations of the field of study.
Is able to apply principles of industrial design engineering, correlating product design features, material types, construction, and design principles, as well as manufacturing technologies.
Is able to use methods from art and other research fields to create objects in manufacturing engineering.
Special (engineering analysis and design) Skills:
Is able to apply engineering analysis methods, including mathematical analysis, computational modelling, and practical experiments, to solve engineering problems.
Is able to creatively apply knowledge and understanding of manufacturing engineering and design in creating products, considering artistic, technical, social, health, safety, environmental, commercial, and other defined requirements.
Is able to apply knowledge to define manufacturing engineering problems related to sustainable product development and to select and implement possible engineering solutions.
Is able to apply engineering design methods in practical activities, considering design, cost, materials, manufacturing technologies, and principles of circular economy.
Is able to analyse general engineering and design challenges, considering social, health and safety, environmental, and commercial constraints.
Is able to analyse the design features of newly created or enhanced products and anticipate their design implementation strategy.
Research Skills and Practical Activities:
Is able to proficiently use databases and other informational sources to formulate goals and tasks for industrial design engineering projects.
Is able to explain the principles of production activity organization, the importance of occupational safety, and the fundamental requirements.
Is able to conduct applied research to address tasks in industrial design engineering.
Is able to relate theory and practice to address challenges in industrial design engineering;
Is able to apply appropriate manual and computer-aided graphical representation and 3D modeling methods to present information and implement engineering and design ideas.
Personal (decision-making, lifelong learning, cooperation and teamwork) Skills:
Is able to work effectively both independently and as part of a team to achieve common goals.
Is able to use of written, verbal, and non-verbal communication, in both the native and at least one foreign language with the engineering community and the general public.
Is able to describe the impact of engineering activities on society and the environment.
Is able to independently and flexibly apply knowledge towards personal goals throughout their professional career.
Is able to apply project management practices.
Additional Knowledge and Skills:
Is able to creatively apply appropriate methods, tools, and equipment to create sustainable products that satisfy consumer needs.
Is able to apply fundamental concepts, phenomena, and principles of philosophy, information technology, materials science, engineering mechanics, mechatronics, design, business, and socio-economic environment awareness.
Is able to use engineering and software tools, as well as research methods, to identify phenomena, properties of materials and products, explain obtained results and causal relationships, and present conclusions.
Activities of teaching and learning:
The studies include classroom work (lectures, practical work, laboratory work, 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.
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).
Study subjects (modules):
Engineering Graphics, Information Technologies for Engineers, Introduction to Speciality, Mathematics 1, Design Fundamentals, Engineering Mechanics, Mathematics 2, Physics 1, Basics of Three-Dimensional Design, Computer-Aided Design, Sketching fundamentals, Theory of Probability and Statistics, Three-Dimensional Visualisation and Animation, Applied Materials Science, Culture of Modern Design, Fundamentals of Digital Manufacturing and Mechatronics, Fundamentals of Mechanical Systems Design, Methods of Prototyping, Bionics and Biomimicry in Design, Ergonomics and Human Factors, Product Design, Semester Project, Technologies for Industrial Design, AI based design, Product Development Project, Project Management, Technical Creativity and Intellectual Property, Design Workshop, Engineering Analysis and Optimal Design, Product Design Studio Project, Three-dimensional Animation, Bachelor’s Degree Final Project, Professional Internship.
Electives of Philosophy and Sustainable Development: Media Philosophy, Sustainable Development;
Foreign Language Electives (Level C1): Academic and Technical Communication in English (Level C1), Academic and Technical Communication in German (Level C1), Academic and Technical Communication in French (Level C1).
Study programme abstract:
A graduate has knowledge of product development and design, materials science, engineering technologies, marketing and protection of innovation. The graduate is able to formulate and analyse a problem, design and visualise a shape of the product, select materials, production technologies and tools and evaluate engineering solutions in terms of ethical, social, economic aspects and safety.
Access to professional activity:
The graduate can work in design, engineering and other professional fields related to the identification of the need, development, computer-aided design and modelling, research and production of consumer products or other types of products.
Access to further study:
S/he has access to the second cycle studies.
