Call: Common approaches for the safety validation of CCAM systems (CCAM Partnership)
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Programme | |||||||||
Acronym | HE-CL5-D6 | ||||||||
Type of Fund | Direct Management | ||||||||
Description of programme "Horizon Europe - Cluster 5 - Destination 6: Safe, Resilient Transport and Smart Mobility services for passengers and goods" | This Destination includes activities addressing safe and smart mobility services for passengers and goods. Europe needs to manage the transformation of supply-based transport into safe, resilient and sustainable transport and demand-driven, smart mobility services for passengers and goods. Suitable research and innovation will enable significant safety, environmental, economic and social benefits by reducing accidents caused by human error, decreasing traffic congestion, reducing energy consumption and emissions of vehicles, increasing efficiency and productivity of freight transport operations. To succeed in this transformation, Europe’s ageing (and not always sustainable) transport infrastructure needs to be prepared for enabling cleaner and smarter operations. Europe needs also to maintain a high-level of transport safety for its citizens. Resilience should be built in the transport systems to prevent, mitigate and recover from disruptions. Research and innovation will underpin the three safety pillars: technologies, regulations and human factors. This Destination contributes to the following Strategic Plan’s Key Strategic Orientations (KSO):
It covers the following impact areas:
The expected impact, in line with the Strategic Plan, is to contribute to “Safe, seamless, smart, inclusive, resilient and sustainable mobility systems for people and goods thanks to user-centric technologies and services including digital technologies and advanced satellite navigation services”, notably through:
Connected, Cooperative and Automated Mobility (CCAM) The aim of relevant topics under this Destination is to accelerate the implementation of innovative connected, cooperative and automated mobility (CCAM) technologies and systems. Actions will help to develop new mobility concepts for passengers and goods – enabled by CCAM - leading to healthier, safer, more accessible, sustainable, cost-effective and demand-responsive transport everywhere. CCAM solutions will shift design and development from a driver-centred to mobility-user oriented approach, providing viable alternatives for private vehicle ownership while increasing inclusiveness of mobility. CCAM must be integrated in the whole transport system to fully exploit the potential benefits of CCAM and minimise potential adverse effects, such as increasingly congested traffic or new risks in mixed traffic environments. The focus is on road transport, but relevant interfaces with other modes (for instance transfers and integration with public transport or rail freight transport) will be considered. All technologies, solutions, testing and demonstration activities resulting from these actions should be documented fully and transparently, to ensure replicability, increase adoption, up-scaling, assist future planning decisions and EU and national policy-making and increase citizen buy-in. Actions are in line with the recommendations of the new European Partnership on CCAM. The Vision of the Partnership is: “European leadership in safe and sustainable road transport through automation”. It aims to harmonise European R&I efforts to accelerate the implementation of innovative CCAM technologies and services. It aims to exploit the full systemic benefits of new mobility solutions enabled by CCAM. The European Partnership on CCAM plans to closely cooperate with other European Partnerships, in particular with “Towards zero emission road transport” (2ZERO), “Driving Urban Transitions” (DUT), “Key digital technologies” (KDT), “Smart networks and services” (SNS) and “AI, data and robotics” (AI). The European Partnership will establish cooperation mechanisms to ensure close interaction when defining R&I actions to maximise synergies and avoid overlaps. R&I actions taking place at a socio-technical level aiming to better understand the science-society relationship (particularly when social practices, market uptake or ownership are concerned) should favour solutions that are grounded in social innovation in order to achieve its desired outcomes, i.e. by matching innovative ideas with social needs and by forming new collaborations between public and private actors, including civil society and researchers from the Social Sciences and Humanities (SSH). To test CCAM solutions, applicants can seek possibilities of involving the European Commission’s Joint Research Centre (JRC) in order to valorise the relevant expertise and physical facilities of JRC in demonstrating and testing energy and mobility applications of the JRC Living Lab for Future Urban Ecosystems https://ec.europa.eu/jrc/en/research-facility/living-labs-at-the-jrc The main impacts to be generated by topics targeting connected, cooperative and automated mobility under this Destination are:
Multimodal and sustainable transport systems for passengers and goods Multimodal and sustainable transport systems are the backbone for efficient mobility of passengers and freight. In particular, the areas of infrastructure, logistics and network/traffic management play a major role in making mobility and transport climate neutral, also through the digitalisation of the sectors. At the same time, being vulnerable to climate change and other disruptions, resilience in these three areas need to be increased. New and advanced infrastructures across all transport modes are required to enable the introduction of new vehicles, operations and mobility services. Furthermore, efficient and smart multimodal logistics are key for seamless and sustainable long-haul, regional and urban freight transport movements. Finally, dynamic multimodal network and traffic management systems are the “glue” of the entire transport network, for optimised door-to-door mobility of both passengers and freight. To test solutions related to multimodal and sustainable transport systems for passengers and good, applicants may seek possibilities of involving the European Commission’s Joint Research Centre (JRC) in order to valorise the relevant expertise and physical facilities of JRC in demonstrating and testing energy and mobility applications of the JRC Living Lab for Future Urban Ecosystems[[https://ec.europa.eu/jrc/en/research-facility/living-labs-at-the-jrc]]. The main impacts to be generated by topics targeting Multimodal and sustainable transport systems for passengers and goods under this Destination are:
Safety and resilience - per mode and across all transport modes Safety and resilience are of primary concern for any transport system. The EU set ambitious targets in its 2011 Transport White Paper, the third Mobility Package and, more recently, the Sustainable and Smart Mobility Strategy[[COM(2020) 789 final.]]. COVID-19 has been a stark reminder of the importance of resilience to external disruptions, particularly for transport. Research and innovation will underpin the three pillars affecting safety and resilience: technologies; regulations (alongside acceptable level of risks); and human factors (individual and organisational aspects, including interaction with automation). The approach is risk-based and systemic, including transport means/vehicles, infrastructure, the physical environment (e.g. weather) and the various actors (e.g. manufacturers, regulators, operators, users) as well as all their interfaces, including certification and standardisation bodies. Synergies should be exploited across research at national, EU and international level together with national authorities, EU agencies and international organisations to improve rulemaking, safety promotion and oversight. The main impacts to be generated by topics targeting transport safety and resilience under this Destination are: Safety in Urban Areas/ Road Transport Safety
Waterborne Safety and Resilience
Aviation Safety and Resilience
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Link | Link to Programme | ||||||||
Call | Common approaches
for the safety validation of CCAM systems (CCAM Partnership) | ||||||||
Description of call "Common approaches for the safety validation of CCAM systems (CCAM Partnership)" | Expected Outcome Project results are expected to contribute to all of the following expected outcomes:
Scope: A decisive factor for the successful implementation of innovative CCAM technologies and for their acceptance and adoption in society will be assuring the effective safety of CCAM systems. While different assessment methods for automated driving functions have been developed, common standard methodologies meeting all the requirements for testing, validation and certification of all levels and use cases of automated driving do not yet exist. Therefore, consensus building between all stakeholders is urgently needed to establish common, validated methodologies and tools. Existing approaches are currently analysed in Horizon 2020, an experts’ network has been set up and validation concepts are demonstrated for selected use cases e.g. in the HEADSTART project. Proposed actions should move the development of common verification and validation methodologies to a new level by widening substantially the scope of use cases addressed and by preparing the required tools to enable the comprehensive safety verification and validation of CCAM systems. This should take into account mixed traffic situations and include functional safety issues and cybersecurity. Such methodologies and tools should allow for their further development and adaptation with future technological evolution. Scenario-based approaches combining virtual and physical testing are needed, as conventional verification and validation approaches would require hundreds of millions of test kilometres for higher levels of CCAM. Proposed actions are expected to develop a commonly accepted and harmonised simulation environment with standardised, open interfaces and quality controlled data exchange to enable the virtual testing of CCAM functions and systems in a multitude of relevant test cases and to enable the efficient and seamless use of validated models from different sources. The validation of CCAM systems depends on the definition of relevant safety-critical scenarios and test cases. Several national and European projects have started to collect such scenarios and store them in databases. There is, however, no European database of relevant scenarios nor an agreed database structure. Scenario descriptions also need to be harmonised and not all relevant scenarios are known. Therefore, proposals need to define and develop processes and tools to continuously identify relevant events and convert them into detailed scenarios from various sources (including accidents), complemented by an ontology-based tool to define relevant future/theoretical scenarios. Diverse weather, lighting and road conditions, a broad spectrum of behaviour of other road users as well as edge cases should be considered. Following the collection of such scenarios, which can partly be derived from other projects and collaborations, scenarios need to be shared and centrally stored in a European database. This database should be established by the proposed actions based on an agreed structure and a harmonised scenario description (ontology layer) and metadata framework, in line with the FAIR data principles. Proposed actions are expected to develop recommendations for harmonisation, standardisation and homologation including the conceptual description of an approval scheme for CCAM systems considering all types of vehicles and fed into on-going discussions regarding EU type vehicle approval rules as well as in the framework of the UNECE. This topic requires the effective contribution of SSH disciplines and the involvement of SSH experts, institutions, as well as the inclusion of relevant SSH expertise, in order to produce meaningful and significant effects enhancing the societal impact of the related research activities. In order to achieve the expected outcomes, international cooperation is advised, in particular with projects or partners from the US, Japan, Canada, South Korea, Singapore, Australia. This topic implements the co-programmed European Partnership on ‘Connected, Cooperative and Automated Mobility’ (CCAM). Specific Topic Conditions: Activities are expected to achieve TRL 5 by the end of the project. Cross-cutting Priorities: | ||||||||
Link | Link to Call | ||||||||
Thematic Focus | Research & Innovation, Technology Transfer & Exchange, Clustering, Development Cooperation, Economic Cooperation, Capacity Building, Cooperation Networks, Institutional Cooperation, Digitisation, ICT, Telecommunication, Mobility & Transport/Traffic , Health, Social Affairs, Sports | ||||||||
Funding area | EU Member States Overseas Countries and Territories (OCTs) | ||||||||
Origin of Applicant | EU Member States Overseas Countries and Territories (OCTs) | ||||||||
Eligible applicants | Education and Training Centres, Federal State / Region / City / Municipality / Local Authority, Research Institution, Lobby Group / Professional Association / Trade Union, International Organization, Small and Medium Sized Enterprises, SMEs (between 10 and 249 employees), Microenterprises (fewer than 10 employees), NGO / NPO, Public Services, National Government, Other, Start Up Company, University, Enterprise (more than 250 employees or not defined), Association | ||||||||
Applicant details | eligible non-EU countries:
At the date of
the publication of the work programme, there are no countries associated to Horizon Europe. Considering the Union’s interest
to retain, in principle, relations with the countries associated to Horizon 2020, most third countries associated to Horizon
2020 are expected to be associated to Horizon Europe with an intention to secure uninterrupted continuity between Horizon
2020 and Horizon Europe. In addition, other third countries can also become associated to Horizon Europe during the programme.
For the purposes of the eligibility conditions, applicants established in Horizon 2020 Associated Countries or in other third
countries negotiating association to Horizon Europe will be treated as entities established in an Associated Country, if the
Horizon Europe association agreement with the third country concerned applies at the time of signature of the grant agreement.
Legal entities which are established in countries not listed above will be eligible for funding if provided for in the specific call conditions, or if their participation is considered essential for implementing the action by the granting authority. Specific cases:
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Project Partner | Yes | ||||||||
Project Partner Details | Unless otherwise provided for in the specific call conditions , legal entities forming a consortium are eligible to participate in actions provided that the consortium includes:
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Further info | Proposal page limits and layout: The application form will have two parts:
Page limit - Part B: 45 pages | ||||||||
Type of Funding | Grants | ||||||||
Financial details |
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Submission | Proposals must be submitted electronically via the Funding & Tenders Portal Electronic Submission System. Paper submissions are NOTpossible. |
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