These national enforcement guidelines provide guidance about how the requirement of proper control in Australian Road Rule 297 should apply to vehicles with automated functions. The guidelines also confirm that the human driver is responsible for compliance with road traffic laws when a vehicle has conditional automation engaged at a point in time.
Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee, the Committee of the Regions
This Communication outlines the common EU approach and vision towards connected and automated mobility set out in a European agenda including supporting actions to:
develop and deploy key technologies, services and infrastructure;
position Europe as a global leader in CCAM across transport modes;
ensure that EU legal and policy frameworks are ready to support deployment;
address societal and environmental concerns towards public acceptance
The main recommendation of the Communication revolves around the need to coordinate EU instruments at research and regulatory level, alongside private sector engagements and funding programmes within Member States, to accelerate the transformation towards a safer, more resilient, and efficient transport sector capable of meeting diverse population needs.
A future in which self-driving cars define the traffic landscape: what will this look like and when could we expect this future to arrive, either solely on highways or everywhere? Great uncertainty surrounds these questions. If technological development is rapid, the technology affordable, self-driving cars attractive to car drivers and the societal impacts positive, a ‘self-driving future’ is highly probable. Policy measures moreover can accelerate this transition to a self-driving future. Concurrently, ‘showstoppers’ may emerge: developments that impede the transition.
Aligning policy goals is essential to maximize the societal impact of Connected and Automated Driving (CAD). This involves ensuring sovereignty of local mobility policies, cybersecurity and safety, equitable access to mobility, environmental sustainability, economic efficiency, and social acceptance and inclusion. The discussions focused on collaborative frameworks, large-scale demonstration projects, and the importance of National Access Points (NAPCORE) for data access and exchange.
Key Takeaways:
Collaboration: Collaborative frameworks and large-scale demonstration projects are essential to advance AV adoption. Reliable and resilient transportation systems must be supported through partnerships among various stakeholders, including OEMs, logistics companies, infrastructure managers and tech players and should include both rural and urban interests, as well as both passenger and freight transport.
Harmonization: National Access Points (NAPCORE) play a critical role in facilitating data access and exchange, requiring EU-wide harmonization and standardization
Evaluation: The FAME project supports EU policy making by providing a common evaluation methodology and sharing knowledge and best practices across member states
Public/Private Partnerships: Adapting legislation (on national/regional/local level) to support AV deployment, with an emphasis on public/private partnerships, ensuring inclusion and public acceptance, is crucial for success
Regulatory Frameworks: Clear regulatory frameworks, mutual recognition of regulations among member states, and addressing biases in algorithms are necessary for effective implementation
The Transport Research and Innovation Monitoring and Information System (TRIMIS) is the analytical support tool for the establishment and implementation of the Strategic Transport Research and Innovation Agenda (STRIA), and is the European Commission’s (EC) instrument for mapping transport technology trends and research and innovation capacities. A total of seven STRIA roadmaps have been developed covering various thematic areas, namely:
The report presents a comprehensive analysis of research and innovation (R&I) in connected and automated transport in Europe in recent years, focusing on European Union (EU) funded projects. It identifies progress in several thematic fields and technologies, while highlighting the policy context and market activities in Europe and beyond. The analysis is divided into five sub-themes, each one addressing challenges and findings across modes, including multi-modal transport. Main findings on the R&I related to the five sub-themes are presented below:
on-board equipment Most projects covered by the analysis are at the early stages of development, at basic research. Therefore, many of the projects have set the foundation for further development.
connectivity and safety Projects that show deeper integration between fully or partially automated vehicles and connectivity with infrastructure, other vehicles and other connected devices and users (V2X) should be encouraged; especially those can have a positive impact on safety.
supporting infrastructure Some projects have researched the role of physical infrastructure in facilitating connected and automated transport. Since there are relatively few projects under this sub-theme that utilise data to improve physical infrastructure design with connected vehicles in mind, this could be an area for further research.
socio-economic impacts and human factors For several road transport projects, the research is based on the development of Apps. Future research should ensure that the latest state-of-the-art data sources and data processing techniques are used, as well as facilitating largescale trials and pilots.
large scale testing. Safety and security are an underlying theme of the majority of demonstration projects. Therefore, it would be beneficial to build upon the research undertaken by previous European-funded projects, as well as working alongside the private sector, to ensure that research is being optimised and to dissuade the development of repetitive projects, which do not establish a step change in the field.
Altogether, this report provides a comprehensive and up-to-date review of CAT R&I across Europe. The findings and the insights into the current R&I status and future needs, help the European Commission and the STRIA working group to better identify and prioritise R&I activities and provides valuable information to connected and automated transport stakeholders.
Relation with other roadmaps and plans: This report on research and innovation in connected and automated transport in Europe is one of the seven reports that support the implementation of the STRIA roadmaps. The TRIMIS team is consolidating and expanding the data repository to better assess R&I efforts of projects not funded by the EU or Member States. As part of this effort, information on patents and publications will be added. TRIMIS will continue to provide support to STRIA and, based on its research, provide recommendations to policymakers.
This roadmap gathered information in several open workshops with road authorities and operators, with the L3pilot project, with external experts in the field of cost and benefits considering the operational design domain, and with European Commission representatives. Stakeholders, road authorities and operators, have already been considering their position on automation, on different levels, in several initiatives. This is a continuous effort since the field of automation is constantly evolving. This roadmap document is part of this continuous effort and focuses on findings/efforts and a direction for future work within the following topics: Impact on and role of physical and digital infrastructure, with a specific focus on the concept of Operational Design Domain (ODD)Cost and benefits of automation for road authorities and operators The document provides a list of 45 actions and recommendations many of which at least need to be addressed by road authorities/operators. For each action information is provided on other stakeholders involved, resources needed (money, time, power, cooperation, …) and timing (short term: next 3 years, medium term: next 10 years, long term: > 10 years). The emphasis is clearly in learning more about the developments and evolution of higher level (SAE 3-4) automated driving including the related ODD requirements. Goal is to be prepared for automated driving, have influence on the development so that road network operation does not suffer but rather improves, avoid excessive investments in vain, and to reap the potential benefits as soon as possible. It is premature to commence deployments unless road authorities and operators are certain that the solutions invested in will not become obsolete in the short term. Some of the short-term actions, can be carried out with no regrets as they will benefit the road network operations already today and involving human-operated vehicles. Such relate to, for instance, provision of data in digital form, digitalisation of key processes, implementing cybersecurity, and provision of connectivity of the physical and digital infrastructure. The actions and recommendations should be taken further by the road authorities and other stakeholders. Especially a structured dialogue between the road authorities/operators and the automated driving industry is considered important. It would be advisable to converge the large number of roadmap activities in Europe towards a smaller number of dedicated work streams.
Road Automation is progressing fast. This phenomenon takes advantage of both existing and emerging cooperative Advanced Driver Assistance System (ADAS) and In-Vehicle System (IVS) sensor functionalities. Advancements in automatisation, i.e. deployment of automation, are proceeding by integration of the technologies above. The Ministry of Transport and Communication has emphasised that Finland is in the forefront in preparing for and utilising automated traffic.
This document describes the study and design processes used. The study methodology was composed of a concise literature review, expert discussions, working sessions, and stakeholder and authority workshops as well as of the editors’ own experience and knowledge of the domain. The design methodology was based on a phased work on various themes. During the first phase the knowledge gaps, which were identified during the literature review and expert discussions, were discussed in depth. Based on the results, specific action cards were developed and drafted. The action cards contained the title and generic use case and contents descriptions. The various draft versions of the action cards, with the detailed activities included, were thoroughly discussed in the project and the steering group meetings as well as in the stakeholder and administrative entity workshops. The final action cards contain information on detailed activities to be taken, the proposed agency in charge of the coordination of the action with the nominated supporting entities, and scheduled timing of the action and its activities, as well as drafted estimations of resources and budgetary reservations needed for the implementation. The action cards were finalised in the project group and approved by the steering group.
In order to proceed with planning and implementation of the action cards they were divided into five domains. The domains are: infrastructure, road superstructure and equipment, vehicle systems, services and functions, and driver.
The purpose of the action cards is to combine the related transport authority activities and resource needs for guidance to be used in the next few years. The detailed information has been presented to the authorities for their planning and implementation processes. This document provides an overall summary of the results.
During the first two years of the study period, 2016–2017, it is suggested to launch a total of 114 individual actions, either as part of an existing project, as combined to form a larger new project or as stand-alone projects.
This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Cookie settingsACCEPT
Privacy & Cookies Policy
Privacy Overview
This website uses cookies to improve your experience while you navigate through the website. Out of these cookies, the cookies that are categorized as necessary are stored on your browser as they are essential for the working of basic functionalities of the website. We also use third-party cookies that help us analyze and understand how you use this website. These cookies will be stored in your browser only with your consent. You also have the option to opt-out of these cookies. But opting out of some of these cookies may have an effect on your browsing experience.
Necessary cookies are absolutely essential for the website to function properly. This category only includes cookies that ensures basic functionalities and security features of the website. These cookies do not store any personal information.
Any cookies that may not be particularly necessary for the website to function and is used specifically to collect user personal data via analytics, ads, other embedded contents are termed as non-necessary cookies. It is mandatory to procure user consent prior to running these cookies on your website.
Feedback
Please add your feedback in the field below.
Your feedback has been sent! Thank you for your input.