This proposal describes the third core project of the Graphene Flagship. It forms the fourth phase of the FET flagship and is characterized by a continued transition towards higher technology readiness levels, without jeopardizing our strong commitment to fundamental research. Compared to the second core project, this phase includes a substantial increase in the market-motivated technological spearhead projects, which account for about 30% of the overall budget. The broader fundamental and applied research themes are pursued by 15 work packages and supported by four work packages on innovation, industrialization, dissemination and management. The consortium that is involved in this project includes over 150 academic and industrial partners in over 20 European countries.

Listen2Future will boost the potential of piezoelectric acoustic transducers to provide new solutions in the key application areas of Health & Wellbeing and Digital Industry & Energy. Acoustic transducer solutions and the key underlying technologies are addressing many of the challenges in emerging applications towards a more digitalized society. Indeed, growing demand for MEMS-based acoustic transducers (microphones, ultrasonic transducers) in medical and industrial devices are creating a new high demand for miniaturized low power sensors. In combination with an intelligent signal processing system, algorithms and customized packaging, these technologies will be the key to achieve performant, low power consuming, miniaturized and cost-saving systems. The demonstrators will address 14 use-cases in LISTEN2FUTURE with their benchmark in low power consumption, small size and low cost to open the door for disruptive acoustic applications. Major impact on quality of live for humans as well as on industrial and medical appliances can be expected. The European Position in Acoustic Sensors will be therefore strengthened by new piezoelectric materials and technologies with the capability to outperform the existing ones that are based on capacitive MEMS technologies. This will contribute to reinforcing the Union's strategic autonomy in electronic components and systems to support future needs of vertical industries and the economy at large. The growth of the microphone market (8 -> 14bio. units in 5 years) and the growth of the Ultrasound sensing modules market (500mio -> 800mio in 3 years) should be predominantly covered with acoustic sensors made in Europe. The double transition of European Union toward digital and greener society there poses a high demand for reliable and secure data. Our integral acoustic sensor solutions are listening to these needs and mapping the acoustic senses and perceptions into Society 5.0.

NewControl will develop virtualized platforms for vehicular subsystems that are essential to highly automated driving (realizing functions such as perception, cognition and control), so as to enable mobility-as-a-service for next generation highly automated vehicles. Its overarching goal is to provide an industrially calibrated trajectory towards increased user-acceptance of automated control functions, through an approach that is centered on the premise of safety by design. Newcontrol will deliver: 1. Fail-operational platform for robust holistic perception through a combination of Lidar, Radar, and sensor fusion 2. Generalized virtual platform for stable and efficient control of propulsion systems 3. Cost- and power-efficient, high-performance embedded compute-platforms for in-vehicle perception, cognition, and control 4. Robust approaches for implementing, verifying, and certifying automated control for safety-critical applications Several (12) demonstrators will be built to showcase the project’s findings and their capability to facilitate perception, cognition and control of next generation highly automated vehicles. The developments in NewControl will facilitate significant cost reductions for essential modules necessary for future automated vehicles. Concomitantly, these developments will improve the safety and reliability of automated systems to levels necessary for mass-market deployment. These innovations will leverage the expertise of industrial (OEMs, Tier-1, Tier-2 and technology providers) and research partners along the complete semiconductor, automotive, and aviation value chains, providing Europe with a competitive edge in a growing market. Importantly, NewControl's innovations will improve the market penetration of safety-centric automation systems, contributing directly to the European goal of zero road fatalities by 2050.

Movement is at the heart of any city. Urban mobility faces significant challenges from two global megatrends: growing urbanisation and ageing population. Light electric vehicles (EL-Vs) could represent a viable solution to traffic congestion and pollution in cities. However, their successful integration into the urban transport system requires a clear understanding of the individual consumer needs. By involving human science and transportation specialists, the STEVE partners have developed a framework to interpret these forces. Focus will be on mature cities of medium size (Torino: 800.000 inhabitants, Villach 60.000, Calvià 60.000, Venaria 35.000), where STEVE will generate data to support the design of next generation EL Vs, and provoke the mind-shift necessary for swift market penetration of them. The primary idea of STEVE is to implement and test a human-centric approach to electro-Mobility-as-a-Service (eMaaS), according to the “Move2Me” vision of the consortium. This will provide low-cost and financially sustainable EL V solutions and “gamified” services, to enhance users’ awareness, engagement and vehicle energy efficiency. A core item of STEVE is a low-cost electric quadricycle developed by a worldwide OEM in Turin, with start-of-production expected in 2018 at a market price of €8000. The quadricycle will integrate high-technology contents with respect to the current competitors, and will be pilot-tested, together with many other EL-Vs, during extensive demonstration phases in the four STEVE cities STEVE will guarantee a strong impact in terms of business development and jobs, and enhance the European competitiveness in the eMaaS sector while also leveraging Manufacturing. The consortium will also give a primary role to SMEs: while large enterprises will provide the underlying technologies, the services will be mainly designed and operated by SMEs, deeply involved in the local supply chains and adaptable to the specific customers’ needs.

Embedded systems have significantly increased in technical complexity towards open, interconnected systems. This has exacerbated the problem of ensuring dependability in the presence of human, environmental and technological risks. The rise of complex Cyber-Physical Systems (CPS) has led to many initiatives to promote reuse and automation of labor-intensive activities. Two large-scale projects are OPENCOSS and SafeCer, which dealt with assurance and certification of software-intensive critical systems using incremental and model-based approaches. OPENCOSS defined a Common Certification Language (CCL), unifying concepts from different industries to build a harmonized approach to reduce time and cost overheads, via facilitating the reuse of certification assets. SafeCer developed safety-oriented process lines, a component model, contract-based verification techniques, and process/product-based model-driven safety certification for compositional development and certification of CPSs. AMASS will create and consolidate a de-facto European-wide assurance and certification open tool platform, ecosystem and self-sustainable community spanning the largest CPS vertical markets. We will start by combining and evolving the OPENCOSS and SafeCer technological solutions towards end-user validated tools, and will enhance and perform further research into new areas not covered by those projects. The ultimate aim is to lower certification costs in face of rapidly changing product features and market needs. This will be achieved by establishing a novel holistic and reuse-oriented approach for architecture-driven assurance (fully compatible with standards e.g. AUTOSAR and IMA), multi-concern assurance (compliance demonstration, impact analyses, and compositional assurance of security and safety aspects), and for seamless interoperability between assurance/certification and engineering activities along with third-party activities (external assessments, supplier assurance).