Analysis and Synthesis of Mechatronic Systems in Motor Vehicles

Major: Motor Vehicle Transport
Code of subject: 7.274.01.E.022
Credits: 5.00
Department: Department of Motor Vehicle Transport
Lecturer: Doctor of Technical Sciences, prof. Bohdan Kindratskyy
Semester: 2 семестр
Mode of study: денна
Learning outcomes: – knowledge of the organization of service and repair of mechatronic diagnostic and control and measuring systems of the car with the help of modern methods and technologies; – knowledge of standards and protocols for data transmission, algorithms for diagnosing and troubleshooting electronic control systems of vehicle units; – knowledge of modern computer modeling systems and automated design of technical systems; – be able to apply system approaches, algorithms and modeling methods for analysis and synthesis of mechatronic systems of cars; – to apply the acquired knowledge and understanding for high-quality service and repair of mechatronic diagnostic and control-measuring systems of the car; – ability to communicate, including oral and written communication in Ukrainian and English – ability to use various methods, in particular modern information technologies, for effective communication at professional and social levels; – ability to adapt to new situations and make appropriate decisions; – ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge; – the ability to be responsible in the work performed, to make decisions independently, to achieve the goal in compliance with the requirements of professional ethics.
Required prior and related subjects: Car mechatronics; Theory and practice of scientific research; Hybrid and electric car drives.
Summary of the subject: Methodology of scientific knowledge. Physical, mathematical and simulation modeling. Basic stages of the creation of mechatronic systems. Multi-criteria design problems and methods for their solution. Parametric optimization and structural synthesis of mechatronic systems. Modern software products for the synthesis of mechatronic systems of the car.
Assessment methods and criteria: Current control (30%), oral examination, defense settlement and graphic works of practical tasks; Control examination (70%) 60% - test component and 10% - oral component
Recommended books: 1. Кіндрацький Б. І. Основи раціонального проектування машинобудівних конструкцій: Навч. посібник. – Львів: КІНПАТРІ ЛТД, 2005. – 200 с. 2. Кіндрацький Б.І. Мехатроніка автомобілів: Посібник. – Львів: КІНПАТРІ ЛТД, 2018. – 168 с. 3. Дмитрів І.В. Автомобільний транспорт. Теорія і практика наукових досліджень : навч. посібн. – Львів: СПОЛОМ, 2019. – 316 с.

Analysis and Synthesis of Mechatronic Systems in Motor Vehicles (курсова робота)

Major: Motor Vehicle Transport
Code of subject: 7.274.01.E.025
Credits: 2.00
Department: Department of Motor Vehicle Transport
Lecturer: Doctor of Technical Sciences, prof. Bohdan Kindratskyy
Semester: 2 семестр
Mode of study: денна
Learning outcomes: - knowledge of the organization of service and repair of mechatronic diagnostic and control and measuring systems of the car with the help of modern methods and technologies; - knowledge of standards and protocols for data transmission, algorithms for diagnosing and troubleshooting electronic control systems of vehicle units; - knowledge of modern computer modeling systems and automated design of technical systems; - be able to apply system approaches, algorithms and modeling methods for analysis and synthesis of mechatronic systems of cars; - be able to operate and maintain hybrid and electric car drives, mechatronic diagnostic and control and measurement systems; - to apply the acquired knowledge and understanding for high-quality service and repair of mechatronic diagnostic and control-measuring systems of the car; - ability to communicate, including oral and written communication in Ukrainian and foreign languages (English, German, Italian, French, Spanish); - ability to use various methods, in particular modern information technologies, for effective communication at professional and social levels; - ability to adapt to new situations and make appropriate decisions; - ability to realize the need for lifelong learning in order to deepen the acquired and acquire new professional knowledge; - the ability to act responsibly to the work performed, to make decisions independently, to achieve the goal in compliance with the requirements of professional ethics.
Required prior and related subjects: prerequisites: Mechatronics of cars, Theory and practice of scientific research co-requisites: Hybrid and electric car.
Summary of the subject: The introduction contains a justification of the relevance of the topic of the course work, the purpose, main objectives and object of study, a description of the structure of the course work. The first section provides a review of the literature on the selected topic of the course work. The second section is devoted to the parametric synthesis of the belt brake. The third section provides for the parametric synthesis of a multi-disc friction clutch. The conclusions contain a brief assessment of the compliance of the study with the task formulated in the introduction to the course work. The list of used sources includes the processed special scientific and educational literature, addresses of electronic resources of information, etc. Appendices contain one sheet of the graphic part of the course work.
Assessment methods and criteria: Current control (60%): compliance of the content of the course work with the task and the requirements of methodological recommendations for its implementation; independence of solving the task; correctness of application of calculation methods, validity of conclusions, observance of requirements concerning registration of work. Final control (40%): differentiated credit (defense of course work).
Recommended books: 1. Кіндрацький Б. І. Основи раціонального проектування машинобудівних конструкцій: Навч. посібник. – Львів: КІНПАТРІ ЛТД, 2005. – 200 с. 2. Яглінський В. П., Іоргачов Д. В. Моделювання динамічних процесів роботизованого виробництва: Монографія. — Одеса: Астропринт. — 2004. — 232 с. 3. Иглин С. П. Математические расчеты на базе MATLAB. — С-Пб.: БХВ-Петербург. — 2005. — 640 с.