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Smart Buildings Engineering
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Summary of the Profile
General Description:
Objective(s) of a study programme:
To prepare highly qualified and
competitive specialists in civil
engineering for the labour market, who
are able to work independently, solve
professional problems and apply their
knowledge in the field of intelligent
building engineering. The results of the
study programme correspond to the
level of complexity of the first cycle of
collegiate education in the field of civil
engineering studies and are aimed at the
application of practically proven scientific knowledge and typical
engineering solutions, preparation of
specialists for practical activities.
Learning outcomes:
1. Will know the general patterns and
laws of life sciences and mathematics
that are necessary to understand the
fundamental basics of civil engineering
studies.
2. Will know the principal definitions
of the field of civil engineering studies
and will understand their substance.
3. Will have the basic knowledge of
civil engineering that are relevant in
practice.
4. Will know the context of problems
of adjacent study fields and their
solutions.
5. Will be able to apply his/her
knowledge and understanding to solve
problems in the field of civil
engineering by creatively applying
known methods.
6. Will be able to apply their
knowledge and understanding to the
analysis of problems in the field of civil
engineering studies and select
appropriate methods, experimental and
production equipment to solve them.
7. Will be able to apply analytical and
modelling methods in solving
engineering problems in the field of
civil engineering.
8. Will be able to apply engineering
knowledge and understanding in the
formulation and execution of design
tasks in the field of civil engineering in
accordance with defined requirements.
9. Will be able to understand and
apply design methodologies.
10.Will have knowledge and skills in
building information modelling.
11.Will be able to find relevant
professional information using
databases and other sources of scientific
and engineering information.
12.Will be able to apply to carry out
experiments relevant to engineering
problems, process the results and draw practical conclusions from these results.
13.Will have skills in working with
equipment used in the field of civil
engineering.
14.Will be able to select engineering
solutions and the tools and equipment
needed to implement these solutions.
15.Will be able to combine theoretical
and applied knowledge in solving
engineering problems in the
construction sector.
16.Will understand the ethical,
environmental and commercial
considerations of engineering practice.
17.Will understand the principles of
the organisation of engineering
activities and the basic occupational and
fire safety requirements.
18.Will be able to solve engineering
problems independently and in a team.
19.Will be able to communicate with
the engineering community and the
general public.
20.Will understand the impact of
engineering decisions on society and the
environment, adhere to professional
ethics and standards of engineering
practice, and understand responsibility
for the results of engineering activities.
21.Will know the main aspects of
implementation and management of
projects at the level of engineering
activities.
22.Will understand and prepare for
individual lifelong learning.
Teaching and learning activities:
Lecture, exercises, seminars, simulation
(when working with real or simulated
devices and equipment), demonstration,
discussion, learning in real-life
environment: internships, trips to
companies, lectures by business
representatives, distance study, project
method, etc.
The study program is completed with an
independently prepared student’s Final
Thesis.
Methods of assessment of learning achievements:
Various evaluation methods are used to
assess study achievements:
examination, project, test, report,
presentation of individual work, etc.
The study outcomes achieved by
students after completing the studies of
the subject are assessed by assigning the
level of achievement to them. There are
three levels of study achievement in the
subject: excellent, typical, threshold.
Framework:
Study subjects (modules), practical
training:
General College Study Subjects
Contemporary Lithuanian, Specialty
Foreign Language, Sustainable
Environment and Human Safety and
alternatively optional subjects:
Sociology, Sustainable Development,
Psychology.
Subjects of the Study Field
Mathematics, Applied Physics,
Engineering and Digital Graphics,
Basics of Programmed Equipment
Control, Building and Engineering
Materials, Applied Mechanics, Building
Structures and their Calculation, Smart
Engineering Systems, Building
Information Modelling 1, Building
Information Modelling 2, Engineering
Geodesy and Practice, Renewable
Energy Sources, Sustainable Buildings
and their Evaluation, Applied Research,
Economics of Construction, Facility
Water Management, Construction
Technology and Organisation,
Management of Smart Building
Systems, and Practices: Introductory
Practice, Geodesy Practice, Building
Design Practice, Industrial
Technological Practice 1, Industrial
Technological Practice 2. Special Study Subjects
Legal Regulation of Construction
Processes, Optional subjects, Final
Practice, Final Thesis.
Specializations:
No
Optional subjects:
Responsible Innovation, Visual and
Security Systems, Circular
Construction, Virtual and Augmented
Reality Management, Building
Architecture, Unmanned Aerial Vehicle
(drone) technologies
Distinctive features of a study
programme:
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.
Access to professional activity or
further study:
Access to professional activity:
Graduates will be able to work not only
in civil engineering companies
designing and carrying out construction
processes, but also in companies
designing, installing, maintaining and
operating intelligent building
management systems, setting up their
own business and pursuing higher
academic education.
Access to further study:
Graduates have the opportunity to study
at universities and gain a higher
university education.
