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Technical Maintenance of Automobiles
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Summary of the Profile
General Description:
Objective(s) of a study programme:
To prepare competitive, highly-qualified transport engineering specialists being able to work individually and apply the latest technological knowledge in the field of automobile transport engineering, able to make technical decisions independently, work successfully under competitive market conditions and develop professionally.
Learning Outcomes:
Knowledge and its Application:
To possess and understand the fundamental principles and laws of Mathematics, Physical and/or Technological Sciences, Mechanics, Materials Science, Electronics, and Information Technology at a level no lower than required to achieve the learning outcomes of the transportation engineering study field. To have fundamental and up-to-date knowledge of transportation engineering regarding road vehicle structures, their operation and maintenance principles, as well as structural and operational materials. To understand the multidisciplinary nature of transportation engineering sciences and the potential for applying knowledge from other scientific fields to engineering solutions and technologies. To be able to apply process and product design methods in the field of transportation engineering according to defined requirements, utilizing scientific achievements in the management, electrification, and automation of road vehicles, machinery, and their systems.
Special (Engineering Analysis and Design) Skills:
Ability to analyze processes and products in the field of road transport engineering, understand and interpret the obtained results. Ability to solve engineering problems by selecting appropriate methods, experimental and production equipment. Understanding of design methodologies and the ability to apply specialized software for process analysis and data management when designing processes and products in the field of transport engineering, in accordance with defined technical, economic, and environmental requirements.
Research Skills and Practical Activities:
Ability to find, systematize, and interpret information necessary for studies in the field of transport engineering. Ability to conduct experiments required to solve engineering problems, analyse obtained results, and present conclusions. Proficiency in working with equipment used in the field of transport engineering. Capability to practically solve problems related to transport engineering studies. Ability to participate in workgroups for the implementation of transport engineering projects, considering the principles of the circular economy, artificial intelligence, industrial digitalization, as well as ethical, environmental, commercial, organizational, occupational safety, and health aspects, while promoting sustainability. Ability to collaborate with specialists from other professional fields.
Personal Skills (Decision-Making, Lifelong Learning, Collaboration, and Teamwork):
Ability to solve engineering problems both individually and in a team. Competence in communicating with the engineering community and the general public in correct Lithuanian and at least one foreign language. Understanding of the impact of engineering solutions on society and the environment, adherence to professional ethics and engineering standards, and awareness of responsibility for the outcomes of engineering activities. Knowledge of key aspects of project execution and management at the engineering level. Recognition of the importance of lifelong learning and readiness to engage in continuous self-improvement.
Teaching and Learning Activities:
Lectures, consultations, practical tasks and course papers, individual work, practices of professional activities. Students accomplish practical tasks individually or in groups.
Methods of Assessment of Learning Achievements:
The student’s knowledge, skills and abilities acquired while studying subjects of a study programme are assessed after completing of individual assignments performed during the semester and exam session. The achieved learning outcomes after completion of subject studies are assessed attributing them to the levels of achievement: excellent, typical and threshold.
Framework:
Study Subjects (Modules), Practical Training:
General College Study Subjects:
Foreign Language, Professional Communication, Human and Civil Safety, and Optional Subjects (Sociology, Psychology, or Sustainable Development – selected one of them).
Subjects of the Study Field:
Mathematics, Physics, Computer-Aided Design, Applied Software, Engineering Graphics, Electrical Engineering and Electronics, Engineering Mechanics, Technical Measurements, Automobile Construction, Operational Materials, Autonomous Vehicles, Alternative Energy Source Automobiles, Engineering Economics, Project Management, Applied Research, Artificial Intelligence Systems, Automotive Electrical Equipment and Control Systems, Engines, Automobile Theory, Automotive Repair Technologies, Automobile Diagnostics, Automotive Service Enterprise Design, Automobile Maintenance Technologies, and Automobile Technical Expertise.
Special Study Subjects:
Law, optional subjects by choice of students (Welding Technologies, Sustainable Transport, Science Workshop Project, Drone Technologies, Traffic Safety, Active and Passive Safety Systems, Interdisciplinary Project, Smart Technologies in Automobile, Transport System – selected three of them).
Practices:
Technological Practice 1, Technological Practice 2, Industrial Practice 1, Industrial Practice 2, Final Practice.
Completion of Studies:
Studies are completed by defending the Final work individually prepared by a student.
Distinctive Features of a Study Programme:
The quality of studies is assured by cooperation with business enterprises. TOYOTA Technical Training Centre was established in college cooperation with international company Toyota Baltic AS. The company equips laboratories with new facilities, provides opportunity to use teaching material, lecturers and students update their professional qualification in training courses and seminars, organised by the company. The best students are awarded with personal scholarship of the company. Students are able to participate in projects of experimental development: Design and manufacture of aerodynamic tube, design and manufacture of sideslip tricycle, an electric Go-Kart design and production, and others. The first „Student formula “in Lithuania has been manufactured and students successfully participated in the international competitions while participating in experimental development project. Students actively participate in international exchange programme “Erasmus+”: go to study or for professional activities internships to the other countries of European Union.
Access to Professional Activity or Further Studies:
The automobile technical maintenance specialist can work in various transport means repair, trading and components production organizations, in the enterprises engaged in equipment maintenance and as well as in technical inspection enterprises and insurance companies.
Graduate can continue his/her studies having chosen university study programmes in the field of Transport Engineering.
