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Transport Electronics
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Summary of the Profile
Objective(s) of a study programme:
To provide research-based theoretical knowledge and know-how in the field of electronics engineering, develop the abilities to solve transport electronics problems, design, improve, integrate and operate modern electronic equipment and transport electronics systems.
Description of the study programme: https://admissions.ktu.edu/programme/b-transport-electronics/
Learning outcomes:
Knowledge and its Application:
Is able to apply the basic laws of science and mathematics to understand the fundamental principles of electronics;
Is able to explain and identify the fundamental theoretical and applied foundations, concepts, branches (analogue, digital electronics, semiconductor circuits) and their interrelationships of electronic engineering;
Is able to describe the materials, elements and their properties used in transport engineering;
Is able to design algorithms and program electronic systems and information communications used in transport electronics.
Special (engineering analysis and design) Skills:
Is able to identify and formulate the problems of transport electronics engineering, selecting the most appropriate method for their solution, and implement it properly;
Is able to apply engineering knowledge and understanding to the design of analogue, digital and hybrid electronic systems and to the implementation of projects in the field of transport electronics with defined requirements;
Is able to apply knowledge, information networks, databases and literature to the analysis of a transport engineering problem;
Is able to solve engineering design problems by selecting appropriate hardware and software design tools;
Is able to apply mathematical analysis, computer modeling and experimental approaches to address transport electronics problems, evaluating the ethical, social, safety and economic constraints;
Is able to prepare engineering design documentation.
Research Skills and Practical Activities:
Is able to formulate the objectives of the research work, to plan and perform the necessary experiments, to perform parameter measurements using the electrical parameters measurement equipment, to process and evaluate their data and to draw conclusions;
Is able to select and apply equipment, tools and methods for designing, testing and operating automotive electronic devices, knows their operation principles, functionality and features;
Is able to find relevant scientific and professional information using databases and other sources of information;
Is able to combine theory and practice in solving engineering problems in vehicle electronics, to work in an innovative environment and to apply innovations;
Is able to work with specialised automotive testing and diagnostic equipment;
Is able to evaluate engineering solutions ethically, socially, economically and in terms of safety.
Personal (decision-making, lifelong learning, cooperation and teamwork) Skills:
Is able to work effectively independently and as part of a team; Is able to communicate with the engineering community and the general public, and to convey knowledge in mother tongue and at least one foreign language;
Is able to identify the impact of engineering decisions on society and the environment, adheres to professional ethics and standards of engineering practice, and understands responsibility for engineering decisions;
Is able to pursue independent study and professional development.
Activities of teaching and learning:
The studies include classroom work (lectures, practical work, laboratory work, consultation 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):
Basics of Engineering, Classical Physics, Introduction to Electronics, Introduction to Programming for Engineers, Mathematics 1, Circuit Theory 1, Materials Science and Engineering, Mathematics 2, Sensors in Transport, Basics of Measurements and Metrology, Circuit Theory 2, Electronics, Theory of Probability and Statistics, Analogue Devices, Applied Electrodynamics, Digital Devices, Programming of Electronic Systems, Signals and Systems, Artificial Intelligence in Electronic Systems, Automotive Electronic Systems, Maintenance and Reliability of Electronic Transport Systems, Microprocessors Principals and Applications, Embedded Systems, Testing and Diagnostic Systems, Traffic Flow Control Systems, Autonomous Vehicle Control Systems, Electronics Manufacturing Technologies, Semester Project, Bachelor’s Degree Final Project, Professional Internship.
Optional courses: Electives of Philosophy and Sustainable Development: Media Philosophy, Sustainable Development;
Electives: Electronic Security Systems, Wireless technology and vehicle connectivity, Product Development Project, Navigation and Imaging Systems, Intelligent Components of Transport Electronics, Engineering Economics, Energy Sources in Transport Systems, Electronics Projects Management; 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 possesses extensive knowledge in the fields of natural sciences and technologies, and is adept in the latest automotive and aviation electronics systems, including but not limited to the principles of their operation, modelling and development. The graduate is fully capable of designing, improving and integrating modern electronic equipment and automotive and aviation electronics systems. The graduate has obtained comprehensive expertise and practical know-how of working with various electronic systems installed in automobiles, electric vehicles and aircrafts as well as a diverse range of sensors, controllers, transport energy sources, means of testing and diagnostics as well as transport flow management, aircraft electronic systems and digital logistics systems and networks.
Access to professional activity:
The graduate can perform the engineering, expert and managerial work in the field of design, production, maintenance and operation of transport electronics and systems, participate in the project activities of development and modernisation of vehicles, aircrafts or their systems.
Access to further study:
S/he has access to the second cycle studies.
