Hi-Drive addresses a number of key challenges which are currently hindering the progress of developments in vehicle automation. The key aim of the project is to focus on testing and demonstrating automated driving, by improving intelligent vehicle technologies, to cover a large set of traffic environments, not currently achievable. Hi-Drive enables testing of a variety of functionalities, from motorway chauffeur to urban chauffeur, explored in diverse scenarios with heterogeneous driving cultures across Europe. In particular, the Hi-Drive trials will consider European TEN-T corridors and urban nodes in large and medium cities, with a specific attention to demanding, error-prone, conditions. The project’s ambition is to considerably extend the operational design domain (ODD) from the present situation, which frequently demands interventions from the human driver. Therefore, the project concept builds on reaching a widespread and continuous ODD, where automation can operate for longer periods and interoperability is assured across borders and brands. The project also investigates what factors influence user behavior and acceptance, as well as understanding the needs of other road users interacting with these vehicles. The removal of fragmentation in the ODD is expected to give rise to a gradual transition from a conditional operation towards higher levels of automated driving. With these aims, Hi-Drive associates a consortium of 41 European partners with a wide range of interests and capabilities covering the main impact areas which affect users, and the transport system, and enhance societal benefits. The project intends to contribute towards market deployment of automated systems by 2030. All this cannot be achieved by testing only. Accordingly, the work includes outreach activities on business innovation and standardization, plus extended networking with the interested stakeholders, coordinating parallel activities in Europe and overseas.

Automated Road Transport (ART) is seen as one of the key technologies and major technological advancements influencing and shaping our future mobility and quality of life. The ART technology encompasses passenger cars, public transport vehicles, and urban and interurban freight transport and also extends to the road, IT and telecommunication infrastructure needed to guarantee safe and efficient operations of the vehicles. In this framework, CARTRE is accelerating development and deployment of automated road transport by increasing market and policy certainties. CARTRE supports the development of clearer and more consistent policies of EU Member States in collaboration with industry players ensuring that ART systems and services are compatible on a EU level and are deployed in a coherent way across Europe. CARTRE includes a joint stakeholder’s forum in order to coordinate and harmonise ART approaches at European and international level. CARTRE creates a solid knowledge base of all European activities, supports current activities and structures research outcomes by enablers and thematic areas. CARTRE involves more than 60 organisations to consolidate the current industry and policy fragmentation surrounding the development of ART.

Automated driving is expected to increase safety, provide more comfort and create many new business opportunities for mobility services. The market size is expected to grow gradually reaching 50% of the market in 2035. The IoT is about enabling connections between objects or "things"; it’s about connecting anything, anytime, anyplace, using any service over any network. There is little doubt that these vehicles will be part of the IoT revolution. Indeed, connectivity and IoT have the capacity for disruptive impacts on highly and fully automated driving along all value chains towards a global vision of Smart Anything Everywhere. In order to stay competitive, the European automotive industry is investing in connected and automated driving with cars becoming moving “objects” in an IoT ecosystem eventually participating in BigData for Mobility. AUTOPILOT brings IoT into the automotive world to transform connected vehicles into highly and fully automated vehicle. The well-balanced AUTOPILOT consortium represents all relevant areas of the IoT eco-system. IoT open vehicle platform and an IoT architecture will be developed based on the existing and forthcoming standards as well as open source and vendor solutions. Thanks to AUTOPILOT, the IoT eco-system will involve vehicles, road infrastructure and surrounding objects in the IoT, with a particular attention to safety critical aspects of automated driving. AUTOPILOT will develop new services on top of IoT to involve autonomous driving vehicles, like autonomous car sharing, automated parking, or enhanced digital dynamic maps to allow fully autonomous driving. AUTOPILOT IoT enabled autonomous driving cars will be tested, in real conditions, at four permanent large scale pilot sites in Finland, France, Netherlands and Italy, whose test results will allow multi-criteria evaluations (Technical, user, business, legal) of the IoT impact on pushing the level of autonomous driving.