Software updates are highly significant in autonomous vehicles. These updates are utilized
to provide enhanced features and updated security mechanisms. In order to ensure …

The automotive E/E architecture has undergone a paradigm shift in the past century.
Particularly, the new requirements of automated driving are severely challenging the …

Over the last few decades, automotive embedded Information and Communication
Technology (ICT) systems have been used to enhance vehicle performance and enrich …

With the rapid development of autonomous vehicles, more and more functions and
computing requirements have led to the continuous centralization in the topology of …

Driven by software, the automotive domain is living an unprecedented revolution with
original equipment manufacturers increasingly becoming software companies. Vehicle …

In order to increase the ability to build complex, software-intensive systems, as well as to
decrease time-to-market for new functionality, automotive companies aim to scale agile …

An autonomous vehicle (AV) uses high-level decision making and lower-level actuator
controls, such as throttle (acceleration), braking (deceleration), and steering (change in …

With the ever-increasing requirements on vehicle performance, as well as the trend of
vehicle becoming an integral part of a much bigger ecosystem involving automated driving …

The automotive domain is living in an exciting period triggered by challenging business and
technology drivers, like electrification, autonomous driving, over-the-air software updates …

Without meeting safety requirements in the design of electric/electronic (E/E) architectures,
achieving fully-automated vehicles is infeasible. However, considering architecture-related …