Theory of Information and Information systems

Major: Biomedical Engineering (Internet of Things)
Code of subject: 6.163.03.O.16
Credits: 5.00
Department: Electronics and Information Technology
Lecturer: Pavlysh V.A. Ph.D., professor
Semester: 3 семестр
Mode of study: денна
Learning outcomes: As a result of studying the academic discipline, the student should be able to demonstrate the following learning outcomes: • know the main properties and characteristics of information, signals and data, including biomedical ones, methods of measuring and processing biomedical signals; • know the structure and tasks of medical information systems, their classification and features of use; • know the processes of organizing the information exchange of medical data and their standardization, the use of the Internet and the Internet of Things in medicine, the development of telemedicine; • be able to use a system approach to modeling the subject area and methods of experiment planning to build models of complex systems.
Required prior and related subjects: Informatics in biomedical engineering, Biophysics, Operation of biomedical devices, Basics of computer graphics in biomedical engineering, Computing and microprocessor tools in BMA, Basics of modeling biotechnical systems.
Summary of the subject: Concept of information. Transformation of information into a resource and product. Properties and qualitative characteristics of information. Information technologies and systems (IT/S) - basic concepts. Concept of medical information system (MIS). Tasks, structure of MIS, advantages of use. Classification of MIS. From signals to data, information and knowledge. Biomedical signals and their registration. The emergence of biosignals and their connection with psychophysiological processes and biomedical indicators. Concept of medical image, methods of obtaining. Definition of the research object. The model as a structure for obtaining and preserving knowledge. System approach in biomedical engineering. Man as an open information system. The human body is a regulatory network in which everything is interconnected. Identification of models of complex systems based on experimental data. Basics of experiment planning. Basic principles and trends in the development of information technologies and systems. Standardization of medical data exchange. Interaction of the Internet and medicine. Concept of telemedicine. Automated doctor's workplace. Medical IS "Electronic medical card". Promising directions of development of Internet technologies in health care. Network distributed computing. Basic models of calculations in Information and computing networks. GRID computing, GRID technologies in medicine. Cloud technologies (cloud computing). Basic models of cloud services. Scattered (foggy) calculations.
Assessment methods and criteria: Oral and written examination in the process of implementation and defense of practical works and individual tasks, control and ongoing testing. Current control: written reports on practical works, oral survey - 40 points (40%): 2 control works - 30 points each; Final control: control measure - differentiated assessment - the grade is assigned based on the results of the current control. Assessments for the performance of practical work are given on the basis of determining the correctness, completeness and independence of the solutions obtained for each of the tasks: - the obtained results are correct, complete and obtained independently - 100% of the maximum mark; - the obtained results are correct, complete and obtained with significant help and correction of the teacher - 90% of the maximum mark; - the solutions obtained in the work are correct, but incomplete and obtained with significant help and correction of the teacher - 75% of the maximum mark; - the obtained results contain errors, but the approach to obtaining a decision and the application of tools for obtaining a decision are correct - 50% of the maximum score.
Recommended books: 1. Павлиш В.А., Гліненко Л.К., Шаховська Н.Б. Основи інформаційних технологій і систем : підручник. – Львів; Видавництво Львівської політехніки, 2018. – 620 с. 2. Гліненко Л.К., Павлиш В.А., Фаст В.М., Яковенко В.І. Основи біотехнічних систем та їх моделювання: навч. посібник. – Львів: Видавництво Львівської політехніки, 2020.-380 с. 3. Згуровський.М.З., Коваленко І.І., Михайленко В.М. Вступ до комп’ютерних інформаційних технологій: Навч. посібник. – К.: Вид.-во Європ. ун-ту, 2002. – 265 с. 4. Наконечний А.Й., Наконечний Р.А., Павлиш В.А. Цифрова обробка сигналів. Навч. посібник. – Львів. Видавництво Львівської політехніки, 2010 – 368 с. 5. Гужва В.М. Інформаційні системи і технології на підприємствах: Навч. Посібник. – К.: КНЕУ, 2001. – 400 с.