Display Systems in Medical Equipment

Major: Biomedical Engineering (Internet of Things)
Code of subject: 6.163.03.E.84
Credits: 6.00
Department: Electronics and Information Technology
Lecturer: Lebid Solomiya Yuriyivna
Semester: 7 семестр
Mode of study: денна
Learning outcomes: Apply knowledge of the basics of mathematics, physics and biophysics, bioengineering, chemistry, engineering graphics, mechanics, resistance and strength of materials, properties of gases and liquids, electronics, computer science, obtaining and analyzing signals and images, automatic control, systems analysis and decision making methods needed to solve the problems of biomedical engineering. Formulate logical conclusions and sound recommendations for the evaluation, operation and implementation of biotechnical, medical-technical and bioengineering tools and methods. Be able to use databases, mathematical and software for data processing and computer modeling of biotechnical systems, including telemedicine devices and the Internet of Things. Be able to use databases, mathematical and software for data processing and computer modeling of biotechnical systems, including telemedicine devices and the Internet of Things. Have basic knowledge in the field of informatics and modern information technologies; Understand theoretical and practical approaches to the creation and management of medical equipment, medical devices and the Internet of Things. Understand theoretical and practical approaches to the creation and application of artificial biological and biotechnical objects and medical materials. Provide recommendations on the choice of equipment to ensure diagnosis and treatment.
Required prior and related subjects: Physics Biology Medical devices and systems Fundamentals of biotechnical systems simulation Fundamentals of material science Fundamentals of biomedical equipment design Nanotechnology in medicine and biology
Summary of the subject: The purpose of studying the discipline "Imaging systems in medical technology" are the basic principles, methods, algorithms and software used in medical imaging systems, to acquaint students with the basic principles of construction and operation of medical imaging systems. The task of the discipline is the formation of students' abilities (competencies), knowledge, skills and abilities both in the use and design of visualization systems, their constituent elements and parts, namely: • know and understand the structural and functional schemes of medical imaging systems; • ability to evaluate the main technical parameters and characteristics of devices; • ability to develop designs of both separate knots, and devices as a whole; • ability to competently coordinate the elements of medical imaging systems; • ability to use special technical literature and applications, etc.
Assessment methods and criteria: Semester control: lab reports, interviewing, written tests – 40 points (40 %). Final control: control procedure - written and verbal examination – 60 points (60 %).
Recommended books: Мельник Р.А. Алгоритми та методи опрацювання зображень: навч. Посібник — Львів: Вид. Львівської Політехніки, 2017. — 220 с. Рашкевич Ю. М. та ін. Нейроподібні методи, алгоритми та структури обробки сигналів і зображень у реальному часі Монографія / Ю. М. Рашкевич, Р. О. Ткаченко, І. Г. Цмоць, Д. Д. Пелешко. Львів: Видавництво Львівської політехніки, 2014. 256 с. Федьків С.В. Магнітно-резонансна томографія в кардіології: інформаційно-методичний посібник / С.В.Федьків; під ред.: В.М.Коваленка, В.М.Корнацького.— К., 2013.— 60 с.: табл., іл. Злепко С. М., Коваль Л. Г., Гаврілова Н. М., Тимчик І.С. Медична апаратура спеціального призначення. Навчальний посібник. Вінниця, ВНТУ, 2010. 158 с. Злепко С.М., Павлов С.В., Коваль Л.Г., Тимчик І.С. Основи біомедичного радіоелектронного апаратобудування. Вінниця : УНІВЕРСУМ-Вінниця, 2008. – 154 с. Стеценко Г.С., Пенішкевич Я.І та інш. «Медична техніка», -Луцьк: “Надстир’я , 2002, -320 с.