Subject: Distributed Control Systems (17.AU502 )
Native organizations units: Sub-department for Automatic Control and Systems Engineering
Study programmes of the course:
| Type of studies | Title |
|---|---|
| Master Academic Studies | Measurement-Information Technologies and Control Engineering (Godina: 1, Winter) |
| Master Academic Studies | Computing and Control Engineering (Godina: 1, Winter) |
| Master Academic Studies | Measurement-Information Technologies and Control Engineering (Godina: 1, Winter) |
| Master Academic Studies | Software Engineering and Information Technologies (Godina: 1, Winter) |
| Master Academic Studies | Information Engineering (Godina: 1, Winter) |
| Master Academic Studies | Measurement-Information Technologies and Control Engineering (Godina: 1, Winter) |
| Master Academic Studies | Information Engineering (Godina: 1, Winter) |
| Master Academic Studies | Information and Analytics Engineering (Godina: 1, Winter) |
| Master Academic Studies | Information and Analytics Engineering (Godina: 1, Winter) |
Educational goal:
Students get theoretical and practical knowledge about distributed control systems.
Educational outcome:
Outcomes are the knowledge, skills and abilities necessary for an understanding of the complexity of distributed systems, with emphasis on automatic control systems, real-time systems and critical infrastructural systems. Students will learn the paradigms and principles of such systems and they will be able to solve engineering problems, use existing distributed systems, as well as to participate in the development of new applications for distributed systems.
Course content:
Introduction to distributed control systems – DCS (definitions, characteristics, real-time operations …). DCS in process automation and industrial plants (examples, DCS implementation, hierarchical levels, data bases, human machine interface, supervisory control and data acquisition systems – SCADA). Hardware architectures (cluster, grid, Cloud, IoT …). Communication subsystem (function, communication networks, protocols …). Software architecture stiles (client-server, distributed objects, event based, pub-sub, web services, types of services …). Principles and paradigms of DCS (synchronization, consistency and data replication, fault tolerance, security …). Open DCS and integrations.
Teaching methods:
Lectures, computer and laboratory practice, consultations. The theoretical part of the course is examined orally by students` answering problem questions. The oral part is worth 30 points and is based on a set of exam questions. The practical part of the exam is taken in the computer laboratory (colloquium) and through homework assignments. The final grade is formed on the basis of the results of the colloquium and the programming tasks, the quality of the homework and the oral part of the exam.
Literature:
| Authors | Title | Year | Publisher | Language |
|---|---|---|---|---|
| A. Erdeljan | Štampani materijal koji pokriva izlaganja i vežbe | 2005 | FTN | Serbian language |
| 2019 | English | |||
| 2002 | English |
Knowledge evaluation:
| Course activity | Pre-examination | Obligations | Number of points |
|---|---|---|---|
| Test | Yes | Yes | 10.00 |
| Test | Yes | Yes | 10.00 |
| Test | Yes | Yes | 10.00 |
| Oral part of the exam | No | Yes | 30.00 |
| Project | Yes | Yes | 30.00 |
| Test | Yes | Yes | 10.00 |
Lecturers:
Asistent Arsenović Jovana
Assistant - Master
Computational classes
prof. dr Erdeljan Aleksandar
Full Professor
Lectures
prof. dr Vukmirović Srđan
Full Professor
Lectures
Faculty of Technical Sciences
© 2024. Faculty of Technical Sciences.
Contact:
Address: Trg Dositeja Obradovića 6, 21102 Novi Sad
© 2024. Faculty of Technical Sciences.