Henning Schlender and Sören Schreiner and Malte Metzdorf and Kim Grüttner and Wolfgang Nebel
Proceedings of the 2015 Workshop on Embedded and Cyber-Physical Systems Education (WESE)
Modern Cyber-Physical Systems (CPS) already integrate multiple functions and this trend is expected to grow in the near future due to economic reasons. Mixed-Criticality Cyber-Physical Systems (MC-CPS) impose the challenging task of integrating safety-critical and non-safety critical applications on the same device or even on the same System-on-Chip.
The engineering of MC-CPS requires competences from different disciplines, such as physics, mechatronics, electrical engineering, embedded HW/SW design, real-time systems, software engineering, control theory, and safety analysis. Most of these disciplines are covered by university courses, but the application of these techniques on the design of a real MC-CPS can hardly be handled in a regular course. In this paper, we present the concept, organization, technical outcomes and discuss the experiences of a two-term student project group that performed the specification, implementation and test of a mixed-criticality multi-rotor system: Integrating a safety-critical flight control algorithm with a mission-critical payload processing on a single chip. Based on the experiences, we advocate a student project group for teaching the interdisciplinary and crosscutting topic of mixed-criticality within a traditional technical computer science curriculum.
10 / 2015
Design of embedded mixed-criticality CONTRol systems under consideration of EXtra-functional properties
Embedded Multi-Core systems for Mixed criticality applications in dynamic and changeable real-time environments