2258 - Real time operating systems
| Course specification | ||||
|---|---|---|---|---|
| Type of study | Bachelor academic studies | |||
| Study programme | Computer Science and Informatics | |||
| Course title | Real time operating systems | |||
| Acronym | Status | Semester | Number of classes | ECTS |
| 2258 | mandatory | 5 | 2L + E | 5.0 |
| Lecturers | ||||
| Lecturer | ||||
| Lecturer/Associate (practicals) | ||||
| Prerequisite | Form of prerequisites | |||
| Learning objectives | ||||
| (1) Acquisition of theoretical knowledge from distributed operating systems and real-time operating systems. (2) Acquisition of knowledge and skills related to the design, installation, adaptation and use of operating systems for real-time work. | ||||
| Learning outcomes | ||||
| Upon successful completion of the course, students will be able to: (1) independently and in a team design, implement and use system support for real-time work; (2) successfully follow the following courses that require knowledge of operating systems for real-time work. | ||||
| Content | ||||
| Introduction: basic principles, operating system structure, system calls, file system, processes, process design and implementation, communication between processes. Distributed operating systems: topology, network types, communication, client/server model, distributed file system, design strategies. Models for working in real time: event-based, process-based, graph-based, Petri nets. Real-time languages: scheduling, interrupts, synchronization, control blocks, memory requirements. Real-time kernel: principles, design, polling, porting a real-time operating system to the target platform. Examples and comparison of different operating systems for working in real time. Operating systems for real-time work in different domains: image processing, control systems, speech and image transmission. | ||||
| Teaching Methods | ||||
| Lectures and practical work in the laboratory | ||||
| Evaluation and grading | ||||