Smart Buildings Engineering
| SMART BUILDINGS ENGINEERING | |
| State code | 6531EX069 |
| Faculty | Civil Engineering Faculty |
| Study field | Civil Engineering |
| Qualification | Professional Bachelor of Engineering Sciences |
| Form and duration of studies | Full-time – 3 years |
| Credits | 180 ECTS credits |
| Study plans | Full-time studies Degree Course 2024 |
Career Prospects
A graduate will have the basic knowledge of civil engineering, design and management of smart building engineering systems, advanced technologies used in civil engineering, assessment of renewable energy sources and sustainable buildings; he/she will be able to professionally and efficiently analyse and evaluate engineering and technological processes of buildings, select smart building management systems, apply the knowledge and skills to the development of an information model of a building and its systems.
Learning Outcomes
You will be able to:
- Will have a general knowledge of mathematics, physical sciences and technology that enables them to understand and describe the processes involved in civil engineering.
- Will know the most important concepts of civil engineering and will understand their content.Will have basic knowledge of civil engineering, important for practical work.
- Will be familiar with digital technologies and their application possibilities in civil engineering.
- Be able to find, organise and interpret relevant information in civil engineering sciences.
- Be able to carry out experiments and studies necessary for the design and management of smart buildings, analyse their results, draw conclusions and apply them in practice.
- Be able to participate in working groups in the implementation of smart building construction and management projects, taking into account the principles of the circular economy, artificial intelligence, digitalisation of construction projects, ethical, environmental, commercial, organisational, occupational health and safety considerations and the development of the sustainability concept.
- Will be able to read and analyse drawings, calculations and technical documents for building projects.
- Will be able to solve civil engineering problems and select appropriate methods, experimental and production equipment to solve them.
- Will understand smart building design methodologies and be able to use specialised building design, construction and management software.
- Will have working skills with equipment used for the installation, construction and management of smart building engineering systems.
- Will be able to read and analyse drawings, calculations and technical documents for building projects.
- Will be able to solve civil engineering problems and select appropriate methods, experimental and production equipment to solve them.
- Will understand smart building design methodologies and be able to use specialised building design, construction and management software.
- Will have working skills with equipment used for the installation, construction and management of smart building engineering systems.
- Will be able to collaborate with professionals in other professional activities.
- Will be able to solve civil engineering problems individually and in a team.
- Will understand the impact of engineering decisions on society and the environment, observe professional ethics and norms of engineering practice, and understand responsibility for the results of engineering activities.
- Will be able to communicate with the engineering community and the general public in correct Lithuanian and at least one foreign language.
- Will be able to cooperate with professionals in other professional activities.
Full-time studies
Degree Course 2024
| 1st semester (30 credits) | ||
| Subjects | Credits | Evaluation* |
| Mathematics | 6 | E |
| Applied Physics | 6 | P |
| Engineering and Digital Graphics | 6 | P |
| Building and Engineering Materials | 3 | E |
| Introductory Practice | 3 | P |
| Professional language and communication | 3 | E |
| Specialty Foreign Language | 3 | P |
| 2nd semester (30 credits) | ||
| Subjects | Credits | Evaluation * |
| Building and Engineering Materials | 3 | P |
| Applied Mechanics | 6 | E |
| Building Structures and their Calculation | 6 | E |
| Building Information Modelling 1 | 3 | P |
| Engineering Geodesy and Practice | 6 | P |
| Legal Regulation of Construction Processes | 3 | E |
| Specialty Foreign Language | 3 | P |
| 3rd semester (30 credits) | ||
| Subjects | Credits | Evaluation * |
| Sustainable Environment and Human Safety | 3 | E |
| Basics of Programmed Equipment Control | 3 | P |
| Building Structures and their Calculation | 6 | P |
| Smart Engineering Systems | 6 | E |
| Building Information Modelling 2 | 6 | P |
| Renewable Energy Sources | 3 | E |
| Applied Research | 3 | P |
| 4th semester (30 credits) | ||
| Subjects | Credits | Evaluation * |
| Smart Engineering Systems | 6 | P |
| Building Information Modelling 2 | 3 | P |
| Building Design Practice | 6 | P |
| Renewable Energy Sources | 3 | P |
| Industrial Technological Practice 1 | 6 | P |
| Alternatively option group “Social sciences” | ||
| Sociology | 3 | E |
| Psychology | 3 | E |
| Sustainable Development | 3 | E |
| Optional subjects | 3 | P |
| 5th semester (30 credits) | ||
| Subjects | Credits | Evaluation * |
| Sustainable Buildings and their Evaluation | 3 | P |
| Industrial Technological Practice 2 | 6 | P |
| Facility Water Management | 3 | P |
| Construction Technology and Organisation | 6 | P |
| Economics of Construction | 3 | P |
| Management of Smart Building Systems | 6 | E |
| Optional subjects | 3 | P |
| 6th semester (30 credits) | ||
| Subjects | Credits | Evaluation * |
| Sustainable Buildings and their Evaluation | 3 | P |
| Construction Technology and Organisation | 3 | P |
| Management of Smart Building Systems | 3 | P |
| Final Practice | 6 | P |
| Final Thesis | 12 | P |
| Optional subjects | 3 | P |
Optional subjects are freely selectable subjects from the list of predefined subjects.
* E – exam, P – project