Department of Computing and Electronics for Real-Time and Embedded Systems (CERES)
Computing and Electronics for Real-Time and Embedded Systems (CERES) is one of the School of Information Technology's two departments.
Organisation
Head of department:
Deputy head of department:
Educational programmes
The following educational programmes belong to the department of Computing and Electronics for Real-Time and Embedded Systems (CERES).
- Computer Science and Engineering
- Intelligent Systems
- Computer Engineer
- Electrical Engineer
- IT Forensics and Information Security
- Mechatronic Engineer
- Master's Programme (60 credits) in Electronics Design
- Master's Programme (60 credits) in Network Forensics
Technology areas
CERES conducts research and education within two technology areas, Smart Electronic Systems and System of Cyber Physical Systems.
Technology area Smart Electronic Systems
The technology area Smart Electronics Systems focus on the challenges and opportunities that the ongoing digitisation of society entails. Embedded electronics are available in everything from smart everyday gadgets to robots and cars. Smart electronics are developing at a rapid pace and the possibility of new innovations is great.
Research
We have ongoing research on antenna design, electromagnetic interference and compatibility, nanoelectronics and photonics, radar and radio systems, high performance computing architectures, and building practice for components and systems. Read more about the Technology Area's research:
Research at ITE: Technology Area Smart Electronic Systems
Education
The technology area Smart Electronic Systems is responsible for carrying through and developing courses within electronics, radio communication, electromagnetic computation and physics.
Lab environments and collaboration arenas
The technology area Smart Electronic Systems is closely connected to Electronics Centre in Halmstad and Rydberg Laboratory:
Electronics Centre in Halmstad (ECH)
Technology area System of Cyber Physical Systems
When the Internet of Things (IoT) contains sensors, it becomes an example of something called cyber physical systems (CPS), such as intelligent houses, smart electricity networks and intelligent transport systems. This is the focus of Technology Area Systems for Cyber Physical Systems.
Research
We develop model-based methods that enable innovations within CPS. New methods are developed for specification, simulation and testing. Applications include robotics, transport systems and healthcare systems. Read more about the Technology Area's research:
Research at ITE: Technology Area Systems for Cyber Physical Systems
Education
The Technology Area is responsible for carrying through and developing courses within Computer Communication, Computer Science, Computer Systems Engineering, Parallel Architectures and Real-Time Systems.
