AutoDrive - Advancing fail-aware, fail-safe, and fail-operational electronic components, systems, and architectures for fully automated driving to make future mobility safer, affordable, and end-user acceptable.

Project Description

Automated driving is a disruptive technology which opens the door to future multi-billion markets providing business opportunities to value chains in the automotive and semiconductor industries. The European industry has leading competitive strength in the development and manufacturing of highly reliable electro-mechanical systems. In order to preserve this capability Europe needs to setup European standards for high level control such as real-time computing or big data processing. In order to respond to the global challenge AutoDrive has gathered Europe’s leading semiconductor companies, suppliers, OEMs and research institutes committed to create a pan-European eco-system, which has the critical mass to initiate standards and provides the components and subsystems for automated driving. Currently, even the most sophisticated vehicle automation technology on the road is not able to surpass human driving capabilities – especially considering context awareness in any situation. Moreover, there is no common agreement on quantifiable dependability measures that hardware and embedded software must achieve to allow safe automated driving for SAE Levels 3-5. AutoDrive aims for the design of (i) fail-aware (self-diagnostics), (ii) fail-safe, (iii) fail-operational (HW and SW redundancy) electronic components and systems architecture that enable the introduction of automated driving in all car categories. AutoDrive results will significantly contribute to safer and more efficient mobility. It will raise end-user acceptance and comfort by supporting drivers in highly challenging situations (active safety) as well as in regular driving situations. Combining both will reduce the number of road fatalities especially in rural scenarios and under adverse weather conditions. AutoDrive will contribute to Europe’s Vision Zero and to improved efficiency. This will sustain leadership and even grow the market position of all AutoDrive partners.

Contribution

TTTech will research, develop and implement novel technologies for vehicle internal communication and computation based on virtualization concepts. As a leader of Supply Chain 5 (“Safe, secure and low latency communication:”), TTTech is responsible for the coordination of the research activities and developments within the topic of communication inside the AutoDrive project and the interaction with the other supply chains. Such communication is required for cooperative functionality, enables new active safety features and supports a conjoint approach to self-awareness and cross-vehicle exchange of sensor data.

Funding

EU, Ecsel, bmvit, ffg

AutoDrive receives funding from the European H2020 research and innovation programme, ECSEL Joint Undertaking under grant agreement no 737469 and from the Austrian Ministry for Transport, Innovation and Technology under the funding programme "IKT der Zukunft" (Austrian national funding for ECSEL), grant agreement no 858866.

AutoDrive

AutoDrive

Duration: 01.05.2017 – 30.04.2020 (3 years)

Funding: ECSEL Joint Undertaking and FFG

Coordinator: Infineon Technologies AG

Keywords: Automated Driving, Autonomous Driving, Fail-Operational, Real-time Virtualization, Automotive Ethernet, Safety Software Platform

Contact: Edin Arnautovic
edin.arnautovic@tttech.com

AutoDrive Website