The Connected and Adaptive Maintenance for Safer Urban and Secondary Roads project (‘CAMBER’) aims to develop and demonstrate improved safety monitoring across urban and secondary rural road networks through real-time data feedback into road maintenance systems and proven low-cost interventions. Performance metrics based on new-generation data sources will provide road managers up-to-date information on safety issues, damage, and routine maintenance and upgrade needs. Data collated from a range of sources, such as telematics, vehicle and smartphone sensors, and road user feedback, will feed into safety assessment models to flag what measures are required to ensure a safe road environment for all road users, including road-user minority groups with varying design needs, such as powered two-wheelers (PTW). CAMBER will support this through much-need research and testing of low-cost road safety interventions and low-impact maintenance techniques, including those for vehicles with advanced driver-assistance systems (ADAS). The approaches will be demonstrated on urban and road networks in five European countries. CAMBER’s economically-sound solutions and new knowledge will be communicated through established networks to European road managers, policymakers and industry to support the decision-making and investment needed for more efficient maintenance for safer urban and secondary roads.

In SCALE-UP 3 advanced urban nodes Antwerp, Madrid and Turku, team up around 1 main goal: develop data-driven and user centric strategies to accelerate the take-up of smart, clean and inclusive mobility, by means of well-connected and multi-usage urban nodes, to the level needed to meet EU climate and transport objectives. To reach the main goal, 5 strategic objectives are defined: - Improve multi-level and multi-stakeholder governance enabling seamless multimodal transport across urban nodes - Develop (inter)connected and multimodal nodes for passengers and freight as a backbone of a resilient mobility system, including network optimisations -Develop data driven mobility strategies and tools to stimulate seamless multimodal transport of passengers and freight and optimise network capacity across the wider urban area - Provide access to inclusive clean and safe mobility solutions - Change travel behaviour focussing on clean, active and healthy modes of transport The 5 objectives relate to fields of intervention in which the SCALE-UP urban areas excel and deliver valuable output by implementing 28 mobility measures scaled to the FUA and taking into account the TEN-T dimension. Furthermore a strong framework for thematic policy validation amongst SCALE-UP experts guarantees a meaningful cooperation between the 3 urban areas, internal capacity building and mutual exchange and learning. A 6th strategic objective (TAKE UP) defines how the project delivers evidence of the effectiveness of the different actions in relation to EU climate and transport targets, and how it accelerates the take-up of these solutions amongst and beyond SCALE-UP urban areas. The evaluation framework with proven EU record, provides evidence of the impact. Moreover the data driven approach pays special attention to how new digital mobility solutions yield new datasets. These offer new insights and feed the evaluation framework resulting in a more evidence- based policy development.

The overall objective of 5G-Blueprint is to design and validate a technical architecture, business and governance model for uninterrupted cross-border teleoperated transport based on 5G connectivity. 5G-Blueprint will explore and define: - The economics of 5G tools in cross border transport & logistics as well as passenger transport: bringing CAPEX and OPEX into view, both on the supply (Telecom) side and on the demand (Transport & Logistics) side for transformation of current business practices as well as new value propositions - The Governance issues and solutions pertaining to responsibilities and accountability within the value chain dependent on cross border connectivity and seamless services relating to the Dutch & Belgian regulatory framework (telecommunications, traffic and CAM experimentation laws, contracts, value chain management) - Tactical and operational (pre-) conditions that need to be in place to get full value of 5G tooled transport & logistics. This includes implementing use cases that increase cooperative awareness to guarantee safe and responsible tele-operated transport - Preparing and piloting tele-operated and tele-monitored transport on roadways and waterways to alleviate the increasing shortage of manpower and bring transport and logistics on a higher level of efficiency through data sharing in the supply chain and use of AI. - Exploring the possibilities of increasing the volume of freight being transported during the night where excess physical infrastructure capacity is abundant; the lowering of personnel costs would make this feasible on a cost effective basis - Tele-operation will be enabled by the following 5G qualities, such as low latency, reliable connectivity and high bandwidth that current 4G LTE cannot deliver sufficiently. The project’s outcome will be the blueprint for subsequent operational pan-European deployment of teleoperated transport solutions in the logistics sector and beyond.

DISCO will develop and demonstrate - in real-life conditions - a federated European urban freight (UF) data space as one stop shop of data sharing on digital urban logistics solutions and smart tools for ambitious decision making. It will be a continental Ten-T – oriented and distributed real-life ecosystem to prove its value via demonstrated and replicable Use Cases (UCs), build upon innovation drivers to code concrete transformation of urban planning and land use by an open and collaborative UF Data Space with a smart governance model. The DISCO UF Data Space is voluntary based (incentivized), co-created and open framework to achieve a radical transformation and alliance in purpose-oriented data sharing, enabling smart access, fast and resource efficient acquisition, and focused provision, improving knowledge and capacity of city authorities and planners guaranteeing future data availability for dynamic (and predictive) integrated urban logistics planning, synchronizing real-time demand for transport & warehousing with logistics supply, (e.g., as Uber matches the demand for private car transport service with its road drivers’ fleet). DISCO will support European urban logistics players in reducing economic, societal and technical dependence from private digital platforms owned by large global providers, magnifying the scope of a Sustainable Urban Mobility Plans (SUMPs) converging to data-driven Sustainable Urban Logistics Planning (SULPs), expanding them beyond traditional urban boundaries (e.g., rural areas, towns and suburbs, cities, and urban areas according to World Urbanization Prospects ) and beyond Covid-19, to optimally manage, monitor and dynamically predict city freight flows, changing urban nodes accessibility by properly serving Functional Urban Area - FUA on a larger, mixed-use, and flexible scale , and deliver advanced and well-informed planning and purpose oriented, optimised land use within a TEN-T and global dimension.

The European transport faces major challenges in terms of traffic congestion, safety, greenhouse gas emissions and its derived costs. In addition, the development of disruptive technologies and emergence of new mobility solutions generate a revolution in transport network and traffic management. SYNCHROMODE aims to develop data driven ICT tools for improving the management of transport operations from a multimodal perspective and managing the overall transport network as a whole. SYNCHROMODE will provide to transport managers new predictive and network optimization capabilities for balancing the transport supply and demand, and capable of reacting to different types of events. The project will research in transport network supply& demand modelling, simulation and prediction of future states; optimization techniques for multimodal traffic optimisation, standards for data collection and storage; new governance models in transport management and new approaches for defining KPI for assessing the overall solution. SYNCHROMODE will deliver a suite of services for improving the overall transport network management, fostering the coordination of different agents involved in the provision and control of the transport services, the services are: 1) Transport network-wide data exchange and integration system; 2) Cooperative dashboard for real-time monitoring and prediction of network-wide multimodal transport and traffic; 3) Resilient multimodal transport network and traffic management support tool. SYNCHROMODE system will test and validate its results in 3 real Case studies, Thessaloniki (GR), Netherlands and Madrid (SP), with real data from various modes of transport under different traffic events, such as bottlenecks, accidents etc.