Background: With an increase of the number of features in a vehicle, the computational requirements also increase, and vehicles may contain up to 100 Electronic Control Units (ECUs) to accommodate these requirements. For cost-e ectiveness reasons, amongst others, it is considered desirable to limit the growth of, or preferably reduce, the number of ECUs. To that end, mixed criticality is a promising approach that received a lot of attention in the literature, primarily from a theoretical perspective. Aim: In this paper, we address mixed criticality from a practical perspective. Our prime goal is to extend an OSEK-compliant real-time operating system (RTOS) with mixed criticality support, enabling such support in the automotive domain. In ad...
To move mixed criticality research into industrial practice requires models whose run-time behaviour...
Real-time systems are becoming increasingly complex. A modern car, for example, requires a multitude...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
\u3cp\u3eBackground: With an increase of the number of features in a vehicle, the computational requ...
\u3cp\u3eThis paper reports upon our on-going research in supporting mixed criticality by means of a...
This paper reports upon our on-going research in supporting mixed criticality by means of an OSEK-co...
Systems robustness, cost reduction and certification play an important role in the automotive domain...
Embedded real time systems are getting more complex over the years. Safety critical industries such ...
This paper describes our experience with extending ExSched, an operating system independent external...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...
23rd International Conference on Real-Time Networks and Systems (RTNS 2015). 4 to 6, Nov, 2015, Main...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
To move mixed criticality research into industrial practice requires models whose run-time behaviour...
Real-time systems are becoming increasingly complex. A modern car, for example, requires a multitude...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...
\u3cp\u3eBackground: With an increase of the number of features in a vehicle, the computational requ...
\u3cp\u3eThis paper reports upon our on-going research in supporting mixed criticality by means of a...
This paper reports upon our on-going research in supporting mixed criticality by means of an OSEK-co...
Systems robustness, cost reduction and certification play an important role in the automotive domain...
Embedded real time systems are getting more complex over the years. Safety critical industries such ...
This paper describes our experience with extending ExSched, an operating system independent external...
With the rapid evolution of commercial hardware platforms, in most application domains, the industry...
23rd International Conference on Real-Time Networks and Systems (RTNS 2015). 4 to 6, Nov, 2015, Main...
The common availability of multiple processors in modern CPU devices and the need to reduce cost of ...
The ever-growing complexity of safety-critical control systems continues to require evolution in con...
To move mixed criticality research into industrial practice requires models whose run-time behaviour...
Real-time systems are becoming increasingly complex. A modern car, for example, requires a multitude...
In mixed-criticality systems, functionalities of different degrees of importance (or criticalities) ...