Design of Microsystems
Major: Computer Science (Design and programming of intelligent systems and devices)
Code of subject: 6.122.12.E.071
Department: Computer-Aided Design
Lecturer: DSc, Professor, Lobur Mykhailo Vasyliovych
Semester: 5 семестр
Mode of study: денна
Завдання: The study of an academic discipline involves the formation and development of students' competencies: GENERAL: (INT) The ability to solve complex specialized tasks and practical problems in the field of computer science or in the learning process, which involves the application of theories and methods of information technologies and is characterized by complexity and uncertainty conditions; ZK1. Ability to abstract thinking, analysis and synthesis. ZK2. Ability to apply knowledge in practical situations. ZK4. Ability to communicate in the national language both orally and in writing. ZK5. Ability to communicate in a foreign language. ZK9. Ability to work in a team. ZK10. The ability to be critical and self-critical. ZK14. The ability to realize one's rights and responsibilities as a member of society, to be aware of the values of a civil (free democratic) society and the need for its sustainable development, PROFESSIONALS: FC11. Ability to intellectually analyze data based on methods of computational intelligence, including large and poorly structured data, their operational processing and visualization of analysis results in the process of solving applied problems. FC17. Ability to systematically analyze the architecture of the organization and its IT infrastructure, information system planning.
Learning outcomes: As a result of studying the discipline "Design of microsystems", students should: - KNOW: PR13. To know system programming languages and methods of developing programs that interact with computer system components, to know network technologies, computer network architectures, to have practical skills in the technology of computer network administration and their software 3.1) To have the methods and means of a systematic approach to the automated design process; - BE ABLE TO: • Use basic knowledge of informatics and modern information systems and technologies, programming skills, technologies for safe work in computer networks, methods of creating databases and Internet resources, technologies for developing algorithms and computer programs in high-level languages using object-oriented oriented programming for describing mathematical models of microsystem elements and integrating them into the design process. • To carry out a system analysis of design objects and justify the choice of the design methodology of intelligent systems and devices based on modern group technologies for their production. • Competently use software and technical means to model the elements of intelligent microsystems based on the analysis of their properties, purpose and technical characteristics, taking into account system requirements and operating conditions; have skills in debugging and testing software and technical tools. • Demonstrate knowledge of the modern level of microsystems design methods, practical programming skills and the use of applied and specialized computer systems and environments in order to implement them in professional activities. • Improve and substantiate the selection of elements of microsystems based on the principles of their effective use.
Required prior and related subjects: Prerequisite: Higher Mathematics, Physics, Computer Circuit Engineering and Architecture of Computer Systems, Digital Signal and Image Processing.
Summary of the subject: In the process of studying the discipline, the main attention will be paid to the elements of intelligent devices of microsystems and their design methods.
Опис: A systematic approach to the design of microsystems; History of microelectromechanical systems and electronic equipment; Definition, classification of general requirements; Parameters and characteristics of microsystems; General principles of designing microsystems; Overview of automated microsystems design systems; Manufacturing processes of microsystems; Temperature sensors; Electrical mechanical sensors; Actuators; Acoustic sensors; Chemical sensors; Microfluidic systems; Optical sensors.
Assessment methods and criteria: Current control (40%); written reports on laboratory work, oral examination, control work. Final control (60% of exam); written, oral examination.
Критерії оцінювання результатів навчання: Laboratory classes 30% Practical test 10% Exam written component 50% Exam oral component 10%
Recommended books: 1. Лобур М. Мельник М. Основи мікросистемних пристроїв : Навчальний посібник. – Львів: (самвидав), 2017. – 260 c. 2. Автоматизація проектування мікроелектронних систем. Лабораторний практикум: навч. посібник / Теслюк В. М., Денисюк П.Ю., Мельник М.Р., Лобур М.В. - Львів: Видавництво Львівської політехніки;, 2011 - 148 с. 3. Wiak S. (redakcja), Mechatronika, Tom I, Podstawy, Metody, Modele komputerowe, Technologie, Akademicka Oficyna Wydawnicza EXIT, 2009. 4. Лысенко И. Е. Проектирование сенсорных и актюаторных элементов микросистемной техники / И. Е. Лысенко. – Таганрог : ТРТУ, 2005. – 103 с. 5. Теслюк В. М. Моделі та інформаційні технології синтезу мікроелектромеханічних систем: Монографія. – Львів: ”Вежа і Ко”, 2008 – 192 с. 6. Головин Ю.И. Введение в нанотехнологию. - М., 2003.