Management in Biotechnical Systems
Description: Study and application of the basic concepts of automatic control theory for the analysis, evaluation and optimization of control systems, connecting them with biotechnical systems. Methods of linear and dynamic programming for optimizing solutions in automated control systems (ACS) are considered. Students solve problems to change control systems, and also test and build mathematical models of control processes.
Amount of credits: 5
Course Workload:
| Types of classes | hours |
|---|---|
| Lectures | 15 |
| Practical works | 30 |
| Laboratory works | |
| SAWTG (Student Autonomous Work under Teacher Guidance) | 30 |
| SAW (Student autonomous work) | 75 |
| Form of final control | Exam |
| Final assessment method |
Component: University component
Cycle: Profiling disciplines
Goal
- Objectives and objectives of the discipline: to familiarize students with the theory and methods of automatic and automated control used in the creation of biotechnical systems for various purposes and automated health management systems.
Learning outcome: knowledge and understanding
- To know: the tasks of a controlled biomedical experiment solved with the use of modern technical means; principles, technical means and methods of organizing a biomedical experiment; methods of organizing the collection, processing of biomedical information, control and management of the experiment; technical and software automation systems for biomedical research in physiological, biophysical and neurophysiological experiments.
Learning outcome: applying knowledge and understanding
- Be able to: use the acquired knowledge when organizing a medical experiment with the use of technical means; effectively organize the processing and presentation of experimental data. Possess: the skills of using standard devices and research automation programs in a controlled medical and biological experiment.
