Modern automotive control applications require a holistic time-sensitive development. Nowadays, this is achieved by technologies specifically designed for the automotive domain, like FlexRay, which offer a fault-tolerant time synchronization mechanism built into the protocol. Currently, the automotive industry adopts the Ethernet within the car, not only for embedding consumer electronics, but also as a fast and reliable backbone for control applications. Still, low-cost but highly reliable sensors connected over the traditional Controller Area Network (CAN) deliver data needed for autonomous driving. To fusion the data efficiently among all, a common timebase is required. The alternative would be oversampling, which uses more time and ener...
[eng] A distributed embedded system that must work in dynamic environments, where the working condi...
Real-time Ethernet is expected to become the core technology of future in-car communication networks...
The increasing use of electronic components in today’s automobiles demands more powerful in-vehicle ...
Modern automotive control applications require a holistic time-sensitive development. Nowadays, this...
FlexRay is considered the next generation state-of-the-art technology for in-car networks, while tim...
FlexRay is considered the next generation state-of-theart technology for in-car networks, while time...
Due to the increasing bandwidth and timing requirements, next generation communication backbones in ...
In-Car communications are crucial for data exchange within the car. With the increase use of Electro...
Ethernet-based in-car communication is currently a hot topic in the automotive industry. Soon Ethern...
Abstract — Vehicular networks have traditionally focused on the real-time delivery of critical contr...
Abstract—Clock synchronization is a necessary feature in in-vehicle time- and safety-critical networ...
In addition to traditional buses such as CAN or FlexRay, packet-switched Ethernet will be used in ne...
As more features and functionalities are added to automobiles, the need for an improved communicatio...
In measurement and control systems there is often a need to synchronise distributed clocks. Traditio...
Data networks of today's automobiles form a complex conglomerate of heterogeneously interconnected c...
[eng] A distributed embedded system that must work in dynamic environments, where the working condi...
Real-time Ethernet is expected to become the core technology of future in-car communication networks...
The increasing use of electronic components in today’s automobiles demands more powerful in-vehicle ...
Modern automotive control applications require a holistic time-sensitive development. Nowadays, this...
FlexRay is considered the next generation state-of-the-art technology for in-car networks, while tim...
FlexRay is considered the next generation state-of-theart technology for in-car networks, while time...
Due to the increasing bandwidth and timing requirements, next generation communication backbones in ...
In-Car communications are crucial for data exchange within the car. With the increase use of Electro...
Ethernet-based in-car communication is currently a hot topic in the automotive industry. Soon Ethern...
Abstract — Vehicular networks have traditionally focused on the real-time delivery of critical contr...
Abstract—Clock synchronization is a necessary feature in in-vehicle time- and safety-critical networ...
In addition to traditional buses such as CAN or FlexRay, packet-switched Ethernet will be used in ne...
As more features and functionalities are added to automobiles, the need for an improved communicatio...
In measurement and control systems there is often a need to synchronise distributed clocks. Traditio...
Data networks of today's automobiles form a complex conglomerate of heterogeneously interconnected c...
[eng] A distributed embedded system that must work in dynamic environments, where the working condi...
Real-time Ethernet is expected to become the core technology of future in-car communication networks...
The increasing use of electronic components in today’s automobiles demands more powerful in-vehicle ...