Micro and Nanosystems of the Internet of Things
6.176.00.03 Micro and Nanosystems of the Internet of Things
Qualification awarded: Bachelor in Mісго- and Nanosystem Engineering
Entry year: 2024
Mode of study: full
Program duration: 4 years
Institute: Institute of Telecommunications, Radioelectronics and Electronic Engineering
Number of credits: 240 ECTS credits
Level of qualification according to the National Qualification Framework and the European Qualifications Framework: NQF Level 6 (First cycle of QF-EHEA / EQF Level 6)
Field(s) of study: Electronics automation and electronic communication
Specific admission requirements: Absent
Specific arrangements for recognition of prior learning: Given that the previous level obtained in another country the nostrification, which is held by Lviv Polytechnic, requires. There are not mechanisms of recognition of non-formal education.
Qualification requirements and regulations, including graduation requirements: The full execution of the educational program
Characteristics of the educational program: The educational and professional program is based on the known positions and results of modern scientific research on mісго- and nаnоsystem engineering, automatic control theory, industrial electronics, and orients on actual specialization, within which further professional and scientific career is possible. Specialists in the field of micro- and nanosystem engineering; automation equipment operators; junior specialists in the field of mісго- and nаnоsystem engineering. Students of the direction "Mісго- and Nаnоsystem Engineering" receive the necessary knowledge to solve complex specialized and practical problems during professional work in the field of mісго- and nаnоsystem technology or in the learning process that involves the use of quantum theories and methods of nanoelectronics, including Internet of Things, and characterized by complexity and uncertainty of conditions. Experts in micro- and nanosystem engineering possess the necessary knowledge of scientific concepts, theories, and methods needed to understand the principles of operation and functionality of instruments and devices of micro- and nanosystem technology.
The total volume of the educational and professional program - 240 ECTS credits, including a cycle of humanitarian and social-economic training – 19 ECTS credits; the cycle of natural-scientific training – 69 ECTS credits; the cycle of professional and practical training – 152 ECTS credits.
Програмні результати навчання: 1. Apply knowledge of the principles of operation of devices and systems of micro- and nanosystem technology during their design and operation.
2. Apply knowledge and understanding of mathematical methods to solve theoretical and applied problems of micro- and nanosystem technology.
3. Apply knowledge and understanding of physics, relevant theories, models and methods to solve practical problems of synthesis of micro- and nanosystem technology devices.
4. Evaluate the characteristics and parameters of materials of devices of micro- and nanosystem technology, know and understand the basics of solid-state and optical electronics, nanoelectronics, electrical engineering, analog and digital circuit technology, microprocessor technology.
5. Use information and communication technologies, applied and specialized software products to solve problems of designing and debugging solar energy equipment, physical and biomedical electronics devices.
6. Apply the skills of planning and conducting an experiment to test hypotheses and research the phenomena of micro- and nanoelectronics, be able to use standard equipment, draw up device diagrams, analyze, model and critically evaluate the obtained results.
7. To study the characteristics and parameters of micro- and nanosystem technology, devices of physical and biomedical electronics, taking into account the research goals, requirements and specifics of the selected technical means.
8. Build and identify mathematical models of technological objects, use them in the development of new micro- and nano-system technology and the selection of optimal solutions.
9. To design devices of micro- and nanosystem technology in accordance with the requirements of the customer and available resource limitations.
10. Develop technical means of diagnosing the technical condition of micro- and nanosystem equipment, devices of physical and biomedical electronics.
11. Organize and carry out scheduled and unscheduled technical maintenance, adjustment of technical equipment in accordance with current production requirements.
12. To analyze the regulatory and legal foundations of the introduction of micro- and nanosystem technology, to evaluate the advantages of engineering developments, their environmental friendliness and safety.
13. Communicate freely orally and in writing in the state and foreign languages on professional matters in compliance with the norms of modern Ukrainian business and professional language.
14. To be able to learn new knowledge, progressive technologies and innovations, to find new unconventional solutions and means of their implementation.
15. Apply understanding of the theory of stochastic processes, methods of statistical processing and data analysis when solving professional tasks.
Academic mobility: No, but mobility is encouraged and is recognized in accordance with ECTS procedures
Work placement(s): An iнаносистемної техніки є навчальна практика, яmportant aspect of preparation of specialists on micro- and nanosystem technology is an educational practice that takes place in laboratories of Research Center "Crystal" (Lviv Polytechnic National University), laboratories of Scientific Research Company "Carat"
Programme director: Prof. Dr.Sci.Ostrovskyy Ihor Petrovych, tel. +38-032-258-26-27 ihor.p.ostrovskyi@lpnu.ua
Occupational profiles of graduates: A. Professional profile – Micro- and Nanoelectronics of the Internet of Things:
1. Gives the technical tasks for the development of instruments and devices of micro- and nano-system technology;
2. Provides design and schematic design using the appropriate applied software packages;
3. Develops the mathematical models of electronic devices and systems for a given technical tasks;
4. Develops the methods for evaluating the quality of materials of mісго- and nаnо-system technology, methods of testing of instruments and devices, metrological calibration systems;
5. Selects the optimal structural and technological options for devices mісго- and nаnоsystem technology.
B. Professional profile – Physical and Biomedical Electronics of the Internet of Things:
1. Uses professional knowledge and skills to develop elements and designs of biomedical equipment devices;
2. Uses knowledge and practical skills to develop technological processes in the field of nanotechnology, biomedical micro- and nanosystem technology;
3. Uses professional knowledge and practical skills to develop biomedical information systems and measurement and diagnostic systems;
4. Uses knowledge of methods of observation, description, identification, classification, research of biomedical systems and phenomena;
5. Applies the methodology of scientific research at the theoretical and practical levels.
Access to further studies: Obtaining the second (master's) level