Dr. Nili Mandelblit Director: Nano-Materials-Production, Space, Transport, Research Infar. IBM Infoday, Israel 2 Nov 2015
Horizon 2020 Framework Programme for Research and Innovation (2014-2020) Excellent science European Research Council Future and Emerging Technologies Marie Curie actions European Research infrastructures (including e-infrastructures) 2.488 M Societal challenges Health, demographic change, wellbeing Food security, sustainable agriculture, marine - maritime research, bio-economy Secure, clean and efficient energy Smart, green, integrated transport Climate action, resource efficiency, raw materials Inclusive, innovative and reflective societies Secure societies - Spreading excellence & Widening Participation - Science with and For Society Industrial leadership Leadership in enabling and industrial technologies (ICT, space, nanotechnologies, advanced materials and advanced manufacturing and processing, biotechnology) Access to risk finance Innovation in SMEs
Research Infrastructures Research infrastructures are facilities, resources and services that are used by the research communities to conduct research and foster innovation. Knowledge-based resources (archives, scientific data,..) Major scientific equipments e-infrastructures
The EU approach for Research Infrastructures (RI) Goals: To address collectively the complexity and cost of the design and development of new world class research infrastructures To avoid duplication of efforts and to coordinate and rationalise the use of these research infrastructures To open access to the research infrastructures existing in the individual Member State to all European researchers To trigger the exchange of best practice, develop interoperability of facilities and resources, develop the training of the next generation of researchers To connect national research communities and increase the overall quality of the research and innovation
The H2020 RI Work Program (2016-2017) WP composed of 5 sections: 1. Development and sustainability of new world-class RI 2. Integrating and opening national RIs of pan-european interest 3. Development, deployment and operation of ICT based e- Infrastructures 4. Fostering innovation potential of RI 5. Support to Policy and International cooperation
E-Infrastructure in WP 2016-2017 Goal: Help researchers become more digital New principles: Move from operation centric to user centric view Move from technology offering to service offering approach -> Aim to build a catalogue of services to be provided by all projects Enable the EU Open Science vision: HPC, big data, open research data, computing for every research field All software developed should be open source with appropriate licenses
E-Infrastructure in WP 2016-2017 Transnational Access
Topics in E-Infrastructure 2016-2017 EINFRA-22-2016: User-driven e-infra innovation (2-6M pp; TRL 6-8+) Goal: Design and prototyping of innovative data and computing services & applications to meet the needs of research communities that push the envelope : 1. European initiatives addressing societal challenges (e.g. health and human brain, environment and marine, agriculture & biodiversity, ) 2. SMEs that serve either as suppliers of e-infra technologies or as users of e-infra to improve their own product and service offering 3. Development of pan-european identity federation services for researchers 4. New services in support of Open Science (e.g. new forms of publishing, machine-assisted knowledge extraction services from heterogeneous data resources, machine readability )
Topics in E-Infrastructure 2016-2017 EINFRA-21-2016 (b): Platform-driven e-infra innovation (2-5M; TRL 6-8+) - Part (a) Public Procurement of innovative HPC systems - Part (b) Develop services to respond to the long-term needs of research and education communities (5 to 10 years' timeframe) 1. Universal discoverability of data objects - for the uptake of a Digital Identifier e-infrastructure for digital objects (articles, datasets, collections, software, nomenclature, etc.) 2. Computing e-infrastructure with extreme large datasets Develop the basis software layers supporting applications to cope with very large data resources: including modelling, simulation, pattern recognition (Prototypes should follow an open source approach and aim at common interfaces to access and analyse underlying data collected/stored in different platforms)
Topics in E-Infrastructure 2016-2017 EINFRA-12-2017: Data and Distributed Computing e- infrastructures for Open Science INFRADEV-04-2016 European Open Science Cloud for Research - Launch of a pilot action that should demonstrate how wide availability of scientific data and data-analysis services for European researchers can be ensured through a cloud infrastructure. - The federation, networking and coordination of existing/national research infrastructures and scientific clouds - With the involvement of the research user community, and research funding bodies (to ensure sustainability) - TRL-9
E-Infrastructure in WP 2016-2017
Other Topics in RI WP 2016-2017 INFRAINNOV-01-2017: Fostering co-innovation for future detection and imaging technologies (20M, 1 project) - Establishment of an initiative engaging both the research communities and the industry (including SMEs) to identify and build a roadmap of future detection and imaging technologies, which have applications in the fields of medicine, manufacturing, aerospace, ICT, engineering, environmental science INFRAINNOV-02-2016: Support to Technological Infrastructures (2M, 20M total) - Identification of key techniques and trends which are crucial for the further development of RI and contribute to bridging the gap between the academic world and industry; Focusing on technological R&D needs of researchers, large companies as well as SMEs
Other Topics in RI WP 2016-2017 INFRADEV-01-2017 - Design studies (1-3M, 20M total) - Conceptual and technical design of new research infrastructures, which are leading-edge user facilities of a clear European dimension and interest - Bottom-up call, aimed at identifying the RIs that really have the potential to become the next generation of European world-class RI INFRAIA-02-2017:Integrating Activities for Starting & Advanced Communities (5M-SC,10M-AC, 200M total) - Networking, standardisation and establishing a common access procedure for trans-national and/or virtual access provision. - All areas of science and technology considered - Should organise the key RIs in their domain - Two-stage call
Horizon 2020 Framework Programme for Research and Innovation (2014-2020) Excellent science European Research Council Future and Emerging Technologies Marie Curie actions European Research infrastructures (including e-infrastructures) Societal challenges Health, demographic change, wellbeing Food security, sustainable agriculture, marine - maritime research, bio-economy Secure, clean and efficient energy Smart, green, integrated transport 6.3B Climate action, resource efficiency, raw materials Inclusive, innovative and reflective societies Secure societies - Spreading excellence & Widening Participation - Science with and For Society Industrial leadership Leadership in enabling and industrial technologies (ICT, space, nanotechnologies, advanced materials and advanced manufacturing and processing, biotechnology) Access to risk finance Innovation in SMEs
Transport in H2020 4 priorities
The H2020 Transport Work Program (2016-2017) WP composed of 3 Calls: 1. Mobility for Growth (MG) Aviation - Urban Mobility Waterborne - Logistics Safety NEW area - ITS (Intelligent Transport Sys.) 2. Automated Road Transport (ART) NEW call 3. Green Vehicles (GV) In addition, 3 Joint Undertakings (JUs) with separate calls: 1. Aviation: CleanSky, SESAR 2. Rail: Shift2Rail
The H2020 Transport Work Program (2016-2017) WP composed of 3 Calls: 1. Mobility for Growth (MG) Aviation - Logistics Waterborne - ITS (Intelligent Transport Sys.) Safety - Infrastructure Urban Mobility - SocioEconomic & Behavioral R&D 2. Automated Road Transport (ART) 3. Green Vehicles (GV)
Transport Work Program 2016-2017 Automated Road Transport Call Total Budget in 2016-17 Call: 114M Euro Goals - R&D to increase Safety User convenience Efficiency Livability in cities
Transport Work Program 2016-2017 Automated Road Transport Call
Transport Work Program 2016-2017 Automated Road Transport Call ART-01-2017: ICT infrastructure to enable the transition towards road transport automation (5-15M pp) Development, testing & real-life validation of ICT architectures: Connectivity (V2V and V2I) ; Decision making processes ; Cyber security: Localisation and mapping, using cloud-based spatial data ART-02-2016: Automation pilots for passenger cars (18-36M pp) Test technologies for Conditional Automation (level 3) and functions towards level 4 (High Automation); Analysis of user acceptance and behavior - interaction between the driver and the vehicles ART-03-2017: Multi-Brand platooning in real traffic conditions (15-20M pp) Platooning of heavy duty vehicles of different brands and sizes - Analysis of different platooning strategies and optimization; Integration with intelligent traffic and logistical information systems.
Transport Work Program 2016-2017 Automated Road Transport Call ART-04-2016: Safety and end-user acceptance aspects of road automation in the transition period (3-6M pp) Designing safe human-machine interface, including privacy concerns, and security ART-05-2016: Road infrastructure to support the transition to automation and the coexistence of conventional and automated vehicles (2-5M pp) New methods for traffic flow modelling ; use of visual and electronic signalling and optical guidance; enlarge the electronic road horizon via real-time warnings and information, digital maps, etc. ART-07-2017: Full-scale demonstration of urban road transport automation (10-15M pp) Demonstrate a fleet of automated road transport vehicles (e.g. light weight vehicles, cars, small buses)
The H2020 Transport Work Program (2016-2017) WP composed of 3 Calls: 1. Mobility for Growth (MG) Aviation - Logistics Waterborne - ITS (Intelligent Transport Sys.) Safety - Infrastructure Urban Mobility - SocioEconomic & Behavioral R&D 2. Automated Road Transport (ART) 3. Green Vehicles (GV)
Transport Work Program 2016-2017 Intelligent Transport Systems Complement topics under call for Automated Road Transport Context: Connecting all elements of the transport system Thereby achieving: seamless passengers and goods transport Better use of infrastructure Requires: RT Europe-wide transport information data Combining information from all transport modes
Transport Work Program 2016-2017 Intelligent Transport Systems 6.1 MaaS customer's transportation needs should be met over one interface offered by a service provider; 3.5M pp; planning systems 6.2 Demo - 11-13M pp, including GNSS; focus on data sharing 2-way V2V, V2I, I2I
Transportation of Goods: increase in efficiency and sustainability; digitalisation Transport Work Program 2016-2017 Logistics
Transport Work Program 2016-2017 Logistics - exmaple MG-5.2-2017: Innovative ICT solutions for future logistics operations (3-5M pp) Develop booking and planning systems for freight to find the optimal route (e.g. GNSS based route analysis) Dynamic routing: event management systems - allow real-time exception management for traffic reconfiguration low-cost integration of SMEs in the supply chain: offering two-way communication Integrate sensors or smart devices (IoT, ITS) into supply chain data management tools
Transport Work Program 2016-2017 Safety MG-3.2-2017: Protection of all road users in crashes (4-9M) Including, Pre-crash information, computational crash simulation tools, virtual testing
Transport Work Program 2016-2017 Socio-economic issues 8.2: Big Data; including data mining and data exploitation
Transport Work Program 2016-2017 Socio-economic issues 8.4: including use of ICT to improve accessibility; 8.5: Car-sharing models& use of ICT
Twinning with US DOT in some projects Transport Work Program 2016-2017 International Cooperation
Transport Looking for Partners ETNA Partner search and Partner offer tool: http://www.transportncps.net/index.php?option=com_k2&view=item&layout=item&id =400&Itemid=370 Transport Infoday - Brussels H2020 TRANSPORT INFORMATION DAY AND BROKERAGE EVENT, 5 November 2015, Brussels https://www.b2match.eu/h2020transportcall2016
Event: TRA 2016
Horizon 2020 Framework Programme for Research and Innovation (2014-2020) Excellent science European Research Council Future and Emerging Technologies Marie Curie actions European Research infrastructures (including e-infrastructures) Societal challenges Health, demographic change, wellbeing Food security, sustainable agriculture, marine - maritime research, bio-economy Secure, clean and efficient energy Smart, green, integrated transport Climate action, resource efficiency, raw materials Inclusive, innovative and reflective societies Secure societies - Spreading excellence & Widening Participation - Science with and For Society Industrial leadership Leadership in enabling and industrial technologies (ICT, space, nanotechnologies, advanced materials and advanced manufacturing and processing, biotechnology) Access to risk finance Innovation in SMEs
The Space Call 2016-7 Addressing different challenges in Space: Prioritizing the two EU Space flagships of European Global Navigation Satellite System (GNSS) and Earth Observation: Galileo and Copernicus systems Protection of space infrastructure and setting up a Space Surveillance and Tracking system (SST) Supporting European space science Enhancing Europe as an attractive partner for international partnerships in space science and exploration.
Topic examples in 2016-7 with ICT relevance Earth Observation EO-2-2017: EO Big Data Shift (1-2 M Euros / project, RIA) Earth Observation = big data challenges Project should address the full data cycle needs (e.g. standardized data query, retrieval, data exchange methods, processing) The adaptation of big data technologies to Copernicus user scenarios (i.e. data discovery and analytics to store and extract information). EO-1-2016/ EO-1-2017 : Downstream applications (1-2 M Euros, RIA) Analysis of data and information regarding the Earth sub-systems (land, atmosphere, oceans) and cross-cutting processes (climate change, emergency and security). Proposals may address a wide variety of applications stemming from the use of Earth observation and its smart integration with other related technologies.
Topic examples in 2016-7 with ICT relevance Space Robotics Technologies Goal: Designing, manufacturing and testing of reliable and high performance robotic building blocks for operation in space environments COMPET-4-2016: 3-35M pp Proposals shall address one of the following 6 robotic building blocks: a) Space Robot Control Operating System b) Autonomy framework Time/Space/Resources planning scheduling c) Common data fusion framework d) Inspection Sensor Suite e) Modular interfaces for Robotic handling of Payloads f) Validation Platforms and Field Tests (1M pp)
Topic examples in 2016-7 with ICT relevance High Speed data chain COMPET-3-2017, 5-7M euros pp, RIA Providing advanced on-board data handling and transfer for Earth observation and Telecommunication systems: Re-configurable high data rate links including high frequency bands On-board data processing, implementation of complex data algorithms On-board data compression systems to improve on-board data storage High data rate image (optical and/or radar) and video processing Improved on-board data storage Ground segment architecture: addressing new ICT technologies, including cloud, and rise in user demand for access to Near Real Time (NRT) data in social media and mobile applications.
Topic examples in 2016-7 with ICT relevance GNSS Applications GALILEO-1-2017: EGNSS Transport applications (1-3M pp, IA) Aviation: EGNSS solutions for navigation, surveillance and communication in all phases of flight (aircraft and rotorcraft) Road: EGNSS solutions for autonomous vehicles Maritime: vessels navigation, traffic management and surveillance, search and rescue, port operations, custom fraud control,.. Rail: Train signaling and control, passenger information system, GALILEO-2-2017: EGNSS mass market applications (1-3M pp, IA) Telematics applications. Internet of things: exploiting the interconnectivity of uniquely identifiable devices and the availability of their location Commercial LBS : secure financial transactions; mobile workforce management, tracking solutions; augmented reality; social networking and sport Social LBS : safety and emergency, e-health and solutions supporting visual and mobility of impaired people
Partner search For Space projects COSMOS National Contact Point (NCP) for Space call http://ncp-space.net/ Space info-day presentations: Warsaw Info-day: https://www.b2match.eu/h2020-space-infoday/pages/agenda Brussels Info-day (next week 9-10/11/16) https://www.b2match.eu/h2020-space-infoday/pages/agenda-brussels All event can be found on COSMOS website : http://ncp-space.net/category/events/
Horizon 2020 Framework Programme for Research and Innovation (2014-2020) Excellent science European Research Council Future and Emerging Technologies Marie Curie actions European Research infrastructures (including e-infrastructures) Societal challenges Health, demographic change, wellbeing Food security, sustainable agriculture, marine - maritime research, bio-economy Secure, clean and efficient energy Smart, green, integrated transport 6.3B Climate action, resource efficiency, raw materials Inclusive, innovative and reflective societies Secure societies - Spreading excellence & Widening Participation - Science with and For Society Industrial leadership Leadership in enabling and industrial technologies (ICT, space, nanotechnologies, advanced materials and advanced manufacturing and processing, biotechnology 3.8B) Access to risk finance Innovation in SMEs
H2020 Industrial Leadership Pillar KETs KETs 6 Key Enabling Technologies, whose successful deployment by industry will strengthen Europe's industrial productivity and innovation capacity 1. Nanotechnology 2. Advanced Materials 3. Biotechnology 4. Advanced Manufacturing & Processing 5. Micro- and Nano-Electronics 6. Photonics H2020 goal is to boost the deployment of industrial technologies (ensure their best use, capture market share, and enable innovative solutions to societal challenges)
H2020 Industrial Leadership Pillar KETs KETs 6 Key Enabling Technologies, whose successful deployment by industry will strengthen Europe's industrial productivity and innovation capacity 1. Nanotechnology N 2. Advanced Materials M 3. Biotechnology B 4. Advanced Manufacturing & Processing P 5. Micro- and Nano-Electronics 6. Photonics NMBP WP features in H2020: Emphasis on innovation and involvement of industrial deployment TRL: : Bridging TRLs from 4 to 6-7, with emphasis on expected impact (business cases) Focus on EU Manufacturing
NMBP Work Program 2016-2017 WP addressing different challenges in Nano, Advanced Materials, Biotechnology, and Manufacturing Advanced Materials and Nanotechnologies for High Added Value Products and Process Industries Advanced Materials and Nanotechnologies for Energy and Healthcare Modelling for the Development of Nanotechnologies and Advanced Materials Pilots PPPs Energy Efficient Buildings Factories of the Future Sustainable Process Industries
NMBP Work Program 2016-2017 WP addressing different challenges in Nano, Advanced Materials, and Biotechnology Advanced Materials and Nanotechnologies for High Added Value Products and Process Industries Advanced Materials and Nanotechnologies for Energy and Healthcare Modelling for the Development of Nanotechnologies and Advanced Materials Pilots PPPs Energy Efficient Buildings Factories of the Future Sustainable Process Industries In Call Cross-Cutting activities Focus Area: Industry 2020 in the Circular Economy (NMBP, ICT, SC)
Cross-Cutting activities Pilot Lines (2-stage, 32M E) Context: Funding R&D projects that progress previous research to industrial scale (high TRL); Examples: PILOTS-01-2016: Pilot lines for manufacturing of materials with customized thermal/electrical conductivity properties PILOTS-03-2017: Pilot Lines for Manufacturing of Nanotextured surfaces with mechanically enhanced properties PILOTS-04-2017: Pilot Lines for 3D printed and/or injection moulded polymeric or ceramic microfluidic MEMS PILOTS-05-2017: Paper-based electronics
Cross-Cutting activities Factories of the Future (FOF) 49M E Context: Increase the share of manufacturing in EU GDP to 20% by 2020; Reduce energy consumption and use of material Examples: Novel hybrid approaches for additive and subtractive manufacturing machines Machinery and robot systems in dynamic shop floor environments using novel embedded cognitive functions Zero-defect strategies at system level for multi-stage manufacturing (knowledge management tools; online inspection tools) Continuous adaptation of work environments with changing levels of automation in evolving production systems Support for the further development of Additive Manufacturing technologies New product functionalities through advanced surface manufacturing processes for mass production Integration of unconventional technologies for multi-material processing into manufacturing systems In-line measurement and control for micro-/nano-enabled high-volume manufacturing for enhanced reliability Novel design and predictive maintenance technologies New technologies and life cycle management for reconfigurable and reusable
NMBP WP 2016-17 Additional examples SPIRE-02-2016: Plant-wide monitoring and control of data-intensive processes (Cross-Cutting activities call) EEB-03-2016: Integration of advanced technologies for heating and cooling at building and district level MNBP-02-2016: Advanced Materials for Power Electronics based on wide bandgap semiconductor devices technology NMBP 13-2017: Cross-KET for Health
Searching for Partners - NMP NMP TEAM Partner search and Partner offer tool: https://www.nmp-partnersearch.eu/index.php Presentations and Partner searches from the EU Brokerage Event on KETs in Horizon 2020, October 2015 https://www.b2match.eu/kets2016/ Upcoming NMP Events: MANUFUTURE 2015, 23-24 NOVEMBER 2015, LUXEMBURG http://www.manufuture2015.eu/ NanoIsrael 2016, 22-23 February 2016, Tel-Aviv http://www.kenesexhibitions.com/nanoisrael2016/
Ministry of Science Technology & Space Dr. Nili Mandelblit nili@iserd.org.il