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Appels H2020 Smart, green and integrated transportSpace
Pierre FiasseNCP-Wallonie15/05/2018
1
Budget & deadlines appels 2019
17:17 - 2 -
2018 2019
Calls
H2020-MG-2018-2019-2020 191.40 164.70
H2020-DT-ART-2018-2019-2020 14.00 38.00
H2020-LC-GV-2018-2019-2020 56.00 83.00
261 285
16 Jan 2019 (First Stage)
12 Sep 2019 (Second Stage)
24 Apr 2019
Deadlines
Horizon 2020
Eléments Clés (Pilier 2 et 3)Innovation
Transfert to industry : demonstrators, pilots
Industry = part of consortia
Project’s type5-8 M€, 5 -15 partenairesTendance vers de plus gros projets sur les 3 derniers appelsTendance Industry 4.0
Horizon 2020
§ EUCommission§ 70b€,2014-2020§ Top– Down/Bottom up
H2020
Instruments existants
RIA (Research & Innovation Action) 100%IA (Innovation Action) 70% (100% Non Profit)CSA (Coordination & Support Action) 100%
Date 4
Stratégie H2020 - LEIT / Innovation
InnovationTransférer résultats à l’industrie Démonstrateurs – Scale-up – Pilotes… Standardisation
5
Métrique : Technology Readiness Levels• 1 – Basic Research• 2 – Technology concept• 3 – Proof of Concept• 4 – Technology validation in laboratory• 5 – Validation in relevant environment• 6 – Demonstration in relevant environment• 7 – Demonstration in operational environment• 8 – System complete and qualified• 9 – Deployment17:17
Date 6
Briques technos
Phaselabo/ proto
Demo /Transfert
• Universités• Centre Recherche
• Universités• Centre Recherche• Entrepr. high-tech
Projet IA
TRL 2-3 TRL 4-5 TRL 6-7
Projet RIA
• Entreprises / Acteurs Sectoriels• End-users / • Utilisateurs
Appels Transport 2019
17:17 - 7 -
Date 8
BiocarburantsBig Data Demo5G
Structure appels Transports
17:17 - 9 -
Call MG Mobility for Growth
Call ART Automated Road Transport
Call GVGreen Vehicles
Digitising and Transforming European Industry and Services
Appels201820192020
JTI Clean Sky(Aeronautique)
600 M€/ 12 appels 2
JTI Shift2Rail(Rail)
135 M€/ 5 appels 2
JU SESAR(Aeronautique)
2
Today
17:17 - 10 -
Call MG Mobility for Growth
Mobility for Growth Call
1. BUILDING A LOW-CARBON, CLIMATE RESILIENT FUTURE: LOW-CARBON AND SUSTAINABLE TRANSPORT
17:17 - 11 -
LC-MG-1-5-2019: Advancements in aerodynamics and innovative propulsion systems for quieter and greener aircrafts↘ noise and environmental impact of aviation/ propulsion technologies➔ need of full understanding of the noise source especially for future aircraft configurat.
Address min 2 subtopic :q Compatibility between thrust effectors (fan/propeller electrically or mechanically driven) and higher degree of
integration into disruptive airframe configuratiq Innovative propulsion technologies / reducing fuel consumption by improving thermal and propulsion
efficiency, reducing Particle Number (PN), CO2 and NOx emissions by advanced combustion technologies, reducing engine weight and dimensions
… better understanding of noise source mechanisms for q high bypass ratio turbofan engines.q associated with laminar-to-turbulent flow transition and fully turbulent flow regimeq leading/trailing edge noise generated at including new acoustic treatments on nacelle and aircraft structures.
- 12 -
RIA
€ 3 – 5
1→4
Mobility for Growth Call
LC-MG-1-6-2019: Aviation operations impact on climate change (InCo flagship)Mitigation strategies minimising negative effects by aviation on climate (CO2, NOx, …)Address one or more subtopic :A. Better scientific understanding of aviation emissions / with estimated impact to climate change
B. Propose and evaluate mitigation strategies towards operational improvements. C. Propose and evaluate mitigation strategies towards greener flight trajectories (// SESAR JU)D. Propose and evaluate mitigation strategies based on the use of alternative jet fuel pathways LCA
approach askedExcluded : new aircraft technologies on structures, systems, engines + integration
- 13 -
RIA
€ 2 – 3 2 →4
Mobility for Growth Call
co-fundingmechanism
LC-MG-1-7-2019: Future propulsion and integration: towards a hybrid/electric aircraft (InCo flagship)Feasibility design studies for aircraft energy system with integrated hybrid/electric propulsion and power generation architectures as well as sub-systems enablers (20 years timeline)Address several of the following areas:
q Detailed feasibility design studies for innovative energy distribution, use and storage solutions. + hybrid/electric propulsion and power systems
q Explore concepts on energy harvesting technologies in flight and/or during take-off, landing, breaking and taxiing
q Explore emerging storage technologies q Advance further Electro-Magnetic Interference solutions as well as thermal management trade-offs at
system level.
- 14 -
RIA
€ 3 – 5 1→4
Mobility for Growth Call
CollaboEncouragedwith
LC-MG-1-8-2019: Retrofit Solutions and Next Generation Propulsion for Waterborne TransportReduction of emissions from waterborne transport (CO2, NOx, SOx, PM)
subtopic A (RIA)q Develop and validate a concept for a passenger ship powered primarily by high power fuel cells and if more
efficient, in combination with combustion engine or turbine
subtopic B (IA)Address one or more of q Develop and validate to at least TRL 5 innovative next generation high efficiency propulsion systems for ships
using electrification and or clean fuels and or renewable energy sourcesq Develop and demonstrate to TRL 6 innovative, cost effective retrofit solutions for marine shipping which will
provide substantial improvements in terms of environmental impact and life cycle costq Develop and demonstrate to TRL 6 innovative, cost effective retrofit solutions for inland waterways which will
provide substantial improvements in environmental performance- 15 -
€ 3 – 5
Mobility for Growth Call
€ 4 – 6
LC-MG-1-9-2019: Upgrading transport infrastructure in order to monitor noise and emissions
Address all the following aspects:q Integration into infrastructure systems to detect and identify in real-time vehicles exceeding the limits of noise
(Db(A)) and emissions (CO2, NOx, PM)q Development of I2V systems aimed at informing the transgressor of the emissions/noise limits being exceeded
and preventing access to delimited low-emission zonesq Development of automated tolling systems identifying level of emissions from individual vehicles;q Development of new materials and negative-emissions solutions for infrastructure application, apt to mitigate
noise and emissions.
Road and rail networks are primarily addressed
- 16 -
RIA
€ 4 – 7
Mobility for Growth Call
LC-MG-1-10-2019: Logistics solutions that deal with requirements of the 'on demand economy' and for shared-connected and low-emission logistics operations
Huge increase in demand for new logistics solutions linked with 'on demand economy' ➔ How to prioritize and combine competing interests from private side /public (policy) side.
Address all the following aspects:q Developing value cases for integrated systems of logistics/ freight operations in urban, metropolitan and peri-
urban areaq Addressing the integration of low-emission, and possibly connected (automated) delivery vehicles (e.g.
cargobikes, drones) in urban logistics.
International cooperation encouraged
- 17 -
RIA
€ 2 – 4
Mobility for Growth Call
Mobility for Growth Call
2. SAFE, INTEGRATED AND RESILIENT TRANSPORT SYSTEMS
17:17 - 18 -
MG-2-6-2019: Moving freight by Water: Sustainable Infrastructure and Innovative Vessels
Modernization waterborne transport to stimulate use. Inland or maritime. q Develop innovative inland waterway or short sea transport solutions incorporating innovative vessels
operating more effectively within intermodal logistic chains. ➔ limited and affordable improvements to existing infrastructure targeted
e.g. combine freight with passenger services, ship to ship transfers, smaller coastal ports …q Automated and connected inland waterway and/or port infrastructure to enable more efficient operations.
Including EGNOS/Galileo servicesq Inland waterways : technos for infrastructure maintenance and operation to increase the network resilience &
long-term reliable navigability forecastAsked : q Environmental impact assessment and safety assessmentq Cost-benefit analysis, experimental validation & demonstration.q Encouraged : involvement of value chain actors – business cases
- 19 -
RIA
€ 5 – 10
Mobility for Growth Call
➔ 5
MG-2-7-2019: Safety in an evolving road mobility environment
Increasing automation ➔ need to develop updated ways to assess accident risks
q Define road safety characteristics and properties as conditions and constraints in a traffic system (including road workers) which is undergoing increasing automation
Develop at least one of the following :
q tools and models which simulate how traffic scenarios are expected to change over time with new vehicle types & new safety technologies for all road users. Human Body Models may need to be further developed to represent future collision
q Design of (active/passive) protection systems for future collision scenarios & for occupantsOccupants : new & variable body postures ➔ possible new sophisticated sensor systems
q Development of (physical and/or digital) infrastructure and on-vehicle safety solutions & education and training schemes for all road users
The cultural diversity of road users, age, gender and IT-experience should be considered
- 20 -
RIA
€ 4 – 8
Mobility for Growth Call
MG-2-8-2019: Innovative applications of drones for ensuring safety in transport q Develop and test technologies, operational and business models
➔ for the application of drones or drone swarms ➔ to increase the safety, security, public acceptance and overall efficiency of air, waterborne and surface
transport, both passenger and cargo, including search and rescue applications.q Develop innovative technologies & sustainable business models for pilot services, such as :
Inspection of large vehicles/vessels/aircraft, transport management (including emergencies), transport infrastructure condition monitoring and maintenance, logistics, …
q Data : Efficient, reliable and secure (taking into account cybersecurity) collection, distribution (including wireless transmission) and automatic processing of data (on ground and on board)
q Demonstration of the services for public acceptance, deployment in Europe. Synergies with satelittes based technos
q Consistency with EU Aviation Safety requirements
- 21 -
RIA
€ 3 – 5
Mobility for Growth Call
3 ➔ 5
MG-2-9-2019: InCo Flagship on Integrated multimodal, low-emission freight transport systems and logistics q Understanding how new concepts in logistics have an impact on global freight transport, and on related
greenhouse gas emissionsBetter analyse multimodal transfer zones from ports and airports from long-haul to last mile logistics
q Speed up the process and transition towards the Physical Internet paradigm (open network)Demonstrations of satellite-based applications using EGNOS and Galileo are also suggested.
q Research the range of new issues and questions emerging with the new trade routes to and from Europe,
q Understand new disruptive trends emerging as on-demand logistics solutions such as crowd-sourcing of deliveries (or ‘crowdshipping’) , possible integration of passengers and freight flows
q Assess the impact of emerging technologies (e.g. Blockchain, Industry 4.0, 5G, 3D printing, unmanned aerial vehicles (UAV's)) on the logistics operational system
q Collect best case models and develop decision support systems for public authorities and private companies to determine best scenarios
International cooperation is encouraged, in particular US, Japan, Canada, China, Latin America
- 22 -
RIA
€ 3 – 7
Mobility for Growth Call
MG-2-9-2019: InCo Flagship on Integrated multimodal, low-emission freight transport systems and logistics q Understanding how new concepts in logistics have an impact on global freight transport, and on related
greenhouse gas emissionsBetter analyse multimodal transfer zones from ports and airports from long-haul to last mile logistics
q Speed up the process and transition towards the Physical Internet paradigm (open network)Demonstrations of satellite-based applications using EGNOS and Galileo are also suggested.
q Research the range of new issues and questions emerging with the new trade routes to and from Europe,
q Understand new disruptive trends emerging as on-demand logistics solutions such as crowd-sourcing of deliveries (or ‘crowdshipping’) , possible integration of passengers and freight flows
q Assess the impact of emerging technologies (e.g. Blockchain, Industry 4.0, 5G, 3D printing, unmanned aerial vehicles (UAV's)) on the logistics operational system
q Collect best case models and develop decision support systems for public authorities and private companies to determine best scenarios
International cooperation is encouraged, in particular US, Japan, Canada, China, Latin America
- 23 -
RIA
€ 3 – 7
Mobility for Growth Call
Mobility for Growth Call
4. ACCOUNTING FOR THE PEOPLE
17:17 - 24 -
MG-4-5-2019: An inclusive digitally interconnected transport system meeting citizens' needsDigitalisation of transport promises fully personalised services and commercial offers. Need to better understand the needs and attitudes of various users, in particular vulnerable-to-exclusion citizens (e.g. elderly, low-income, disabled or migrants)q Identify
• the needs and attitudes of all societal strata of transport• the obstacles to the appropriation of digital mobility by different user groups• skills and strategies needed in order to fully benefit from digitalisation
q Investigate • user requirements when transport is interrupted• gender related differences • differences and particularities in sample of member states
q Provide recommendations Research should be validated in a selected number of case studies through pilot demonstration, trials and testing involving service providers and end-users
17:17 - 25 -
RIA
€ 1 – 3
Mobility for Growth Call
BLUE GROWTH
17:17 - 26 -
MG-BG-02-2019: Ship emission control scenarios, marine environmental impact and mitigationSox, Nox, ➔ Better understand the comprehensive environmental impacts from the wide scale adoption of a range of potential emission reduction solutions Adress all of the following aspects:
q Assess the range of emission reduction technologies and designs which may be deployed, consider their cost benefits.
q Experimentally characterise waste streams from emission control technologies (e.g. sea water scrubbing)
q Analyze scenarios for the wide scale adoption of different emission control technologies depending on fuel costs, availabilities service needs etc. ➔ Modelling
q For modelled scenarios assess the environmental impact on the marine environment in the medium and long term including consideration of any potential bio accumulation.
q Assess and propose sustainable cost effective emission reduction strategies and technologies.
17:17 - 27 -
RIA
€ ≤ 8
17:17 - 28 -
Call ART Automated Road Transport
Automated Road Transport
DT-ART-03-2019: Human centred design for the new driver role in highly automated vehiclesWhen a vehicle is in highly automated driving mode the driver may take on different behaviours.
Solutions need to be developed and they have to ensure both a safe transfer between use cases with different automation levels and that drivers always have a very clear understanding about the degree of automation enabled in each situation
Proposals should cover all of the following aspects:q Research to characterise driver roles in SAE automation level 4 situations. Consider driver
generational effectsq Impact assessment methods, especially for safety aspects. q Develop easily understood solutions making it clear to the driver what is the operational capability
(authority) of the automated mode or modes currently enabled.q Demonstration of concept functionality in real world situations with various use cases and driving
environments where automated systems receive and give back control from/to the driver.International cooperation encouraged, in particular : US, Japan, South Korea, Singapore, Australia
17:17 - 29 -
RIA
€ 4 ➔ 8
Automated Road Transport
DT-ART-04-2019: Developing and testing shared, connected and cooperative automated vehicle fleets in urban areas for the mobility of all To accelerate the uptake of shared, connected and cooperative automated vehicles:➔ need for demonstration in real life conditions to test the performance, safety and viability and to prove that they are attractive.q Test robustness, reliability and safety of shared highly automated vehicle fleets that are operating in
semi-open or open environments focusing on the interaction with other road users, including pedestrians, cyclists and public transport systems. The fleets should consist of electrified vehicles.
q Proposals will test the overall mobility impact, in particular, how shared mobility solutions using connected and cooperative automated vehicles can contribute to a more sustainable, inclusive, and safe mobility system and help residents of a city/region (in particular less mobile persons, elderly and children) to increase mobility and improve urban freight transport efficiency
17:17 - 30 -
IA
€ 15 - 30
17:17 - 31 -
Call GVGreen Vehicles
Green Vehicles
LC-GV-03-2019: User centric charging infrastructure Challenge : accelerated deployment of recharging infrastructure: - slow charging for cities (low garage availability)- occasional ultrafast charging for long range travel
➔ Project focused on practical aspects vs users, includingq Analysis of subjective perception of charging options
q Attractive & convenient charging infrastructure access (reservation and scheduling, etc …)
q Transparent, flexible and interconnected payment systems
q User survey about parking habits/ what type of services are expected during charging
q Improvement of the currently deployed or planned superfast charging systems
q Cheap low power DC-Charging for highly efficient connection to future home and office
q Low power DC-charging for LEV’s (two weelers) + parking
q Analysis of market models, regulatory and harmonization recommendations
q Development of planning methods to optimize the location of charging sites17:17 - 32 -
IA
€ 8 - 15
Green Vehicles
LC-GV-04-2019: Low-emissions propulsion for long-distance trucks and coachesHeavy-duty trucks and bus-coaches in long-distance operation➔ Challenge : reduce their energy consumption, CO2 ,regulated and non-regulated emissionsProject adress all the following technical areas :q Sub-systems and components
electro-hybrid drives, optimized Internal Combustion Engines and after-treatment systems for alternative and renewable fuels, electric motors, smart auxiliaries, energy storage, … etc
q Concepts for connected and digitalized fleet management, predictive maintenance and operation in relation to electrification where appropriate to maximise the emissions reduction potential.
q Implementation of required adaptations in VECTO simulation toolImpact:q Internal combustion engine performance : reach a peak thermal efficiency target of 50%q Reduction of CO2 emissions based on new ICEs optimized q > 10% total energy saving, of at least 10% q 30% reduction of NOx, CO and hydrocarbonsq …
17:17 - 33 -
IA
€ 20 - 25
Green Vehicles
LC-GV-05-2019: InCo flagship on “Urban mobility and sustainable electrification in large urban areas in developing and emerging economies”Proposals should address all of the following activities:
q Development of a toolbox for advanced management strategies towards a more efficient private and public electric mobility:§ Vehicle smart and cooperative management (intermodal route planning, ecorouting eco-driving charging and
parking infrastructure availability…).§ Deployment and operation of infrastructure use charging infrastructure (conventional and wireless) and network,
availability of parking places. § Efficient integration of the operations of different electrified road public transport
- from e-bike to bus rapid transit ( e- BRT) including mini-buses, taxi and mobility services on demand - smart navigation and routing, coordinated traffic management, demand-responsive service, …
q Comparative demonstrations activities and pilots in cities in Europe, Asia, African and/or CELAC countries
17:17 - 34 -
IA
€ 15 - 18
Appels Space 2019
- 35 -
- 36 -
GALILEO
GALILEO: Système européen de positionnement et datation
• Couverture mondiale• Compatible et interopérable avec les
systèmes existants (ex: GPS)• 18 des 30 satellites de la constellation déjà
lancés• 1er services déjà opérationnels• Usages civils • Précision (x,y,z,t) ➔ synchronisation
- 37 -
COPERNICUS
COPERNICUS: Initiative de surveillance mondiale de l’environnement et de la sécurité
• Lancé en 1998 ( -ex GMES)• 6 grands thèmes: la surveillance des territoires,
des océans, de l’atmosphère, du climat, la gestion des urgences et l’appui à la sécurité
• Une composante spatiale, dont les satellites sentinelles (financés par l’UE et développés par l’ESA) – lancés en 2014, 2015 et 2016, d’autres prévus jusqu’en 2019
CALLS 2018-2020
- 38 -
Earth ObservationApplications in
Satellite Navigation –Galileo
Competitiveness of the EuropeanSpace Sector: Technology and
Science
SME Instrument
Budget & deadlines appels 2019
17:17 - 39 -
2019
Calls
EGNSS MARKET UPTAKE 2019 20
H2020-SPACE-2019 101
121
12 March 2019
Deadlines
5 March 2019
17:17 - 40 -
Galileo(EGNSS)
Galileo
DT-SPACE-EGNSS-2-2019-2020: EGNSS applications fostering digitisationDevelop EGNSS applications contributing to digitisation of products and services … integrating digital technologies like Internet of Things (IoT), cloud computing, big data and robotics.➔ e.g. commercial Location Based Services, e.g. secure financial transactions; mobile workforce management, tracking solutions and augmented reality,… Smart Cities .
EGNSS should be part and parcel of the envisaged solution(s). Participation of industry, in particular SMEs, is encouraged.Excluded : proposals addressing PRS (Public Regulated Service) related applications
17:17 - 41 -
IA
€ 1 - 3
Galileo
LC-SPACE-EGNSS-1-2019-2020: EGNSS applications fostering green, safe and smart mobilityProposals focused on any transport areas or proposing a multi-mode approach:
q Aviation: modernising and improving air operations and traffic management technologies, UAVsq Road: reduce traffic, optimise fuel consumption and emissions, fostering cheaper, smarter, safer and greener
transportation (e.g. automated and driverless cars, connected cars).
q Maritime: reduce emissions in shipping and increase efficiency, safety, and resilienceq Rail: cheaper, smarter, higher performance, safer and emission-efficient solutions (ERTMS, asset
management, passenger and crew services, autonomous trains).
q Public Transport: managing the public transport fleet in order to enhance the quality of public transportation reduce operational costs ...
17:17 - 42 -
IA
€ 1 - 3
Galileo
SU-SPACE-EGNSS-3-2019-2020: EGNSS applications fostering societal resilience and protecting the environmentTo develop innovative EGNSS applications
Challenge is to make these applications more affordable, easy to use and integrated with other solutions and technologies (e.g Copernicus)Proposals may address social and professional applications. Promising areas of activities are: q Applications supporting e-health, safety and emergency management. q Search and Rescue applications, including tracking of distress situations and response management. q Emergency and disaster management q Management and related operation of critical infrastructure (e.g. electricity network, telecommunication
networks, financial transactions), timing and synchronisationq Efficient Agriculture: Automated machine guidance, precision farming and machine controlq Surveying and Mapping: Land survey, marine survey, cadastral and geodesy, and construction.
17:17 - 43 -
IA
€ 1 - 3
Galileo
SPACE-EGNSS-4-2019: Awareness Raising and capacity building
Support building of public-industrial relationships by gathering private and public institutions around services offered by EGNSS and related applications
17:17 - 44 -
CSA
€ 0,5 - 1
17:17 - 45 -
Copernicus
DT-SPACE-01-EO-2018-2020 Copernicus market uptakeChallenge:q Croisement données Observation de la terre (EO) avec système de
positionnement et ICTq Projet doit répondre aux spécificité des utilisateurs, à large échelle
Scope:q Domaine d’application libre, mais doit être innovantq Participation PME encouragée
Impact:q Créer de nouvelles chaînes de valeur avec des services/ produits observation de
la terre innovant à HVAq Intégration complète chez le client – viabilité économique démontrée
- Générer un CA significatif endéans les 3 ans + création d’emploi
- 46 -
CALL Earth Observation
IA
€ 1 - 2
DT-SPACE-06-EO-2019: International Cooperation Copernicus – Designing EO downstream applications with international partnersCopernicus : full, free and open data policy ➔ cooperation sought with international partners (already : US - Australia)➔ … to enhances access to markets
Scope:q Applications using Copernicus and their smart integration with other related technologies (space
& non space)q Required : participation of international partners having signed a Copernicus Cooperation
Arrangementq Encouraged : participation of industry /SMEs. Participation GEO initiatives partners
Impact:q Establish sustainable supply chains for innovative EO value added products and services with
demonstrated commercial value with international client communities;q Complete integration into customer business chain, demonstrated economic viabilityq Generating within 3 years significant turnover, create new jobs
- 47 -
CALL Earth Observation
RIA
€ 1 - 2
LC-SPACE-04-EO-2019-2020: Copernicus evolution – Research activities in support of cross-cutting applications between Copernicus services Copernicus core services : earth sub-systems (land, atmosphere, oceans) & cross-cutting processes (climate change, emergency and security). ➔ develop by mid-term specific/ targeted applications involving multiple core services outcomes➔ then decide whether new applications could be integrated into the operational service portfolio Scope:q Any innovative applications using cross cutting Copernicus core services
• Demonstrate to what extent it could be a candidate for the operational Copernicus service in terms of cost-benefits, calendar and operational feasibility
• Specify the conditions for making available, for use and exploitation, the results (including IPR) to the entities implementing the EU Copernicus programme, including its contractors and service providers;
q Provide a proof-of-concept or a prototype Impactq Foster innovation and enhance applications which exploit Copernicus service information from across
the service domain
- 48 -
CALL Earth Observation
RIA
€ 1 - 2
LC-SPACE-05-EO-2019: Copernicus evolution – Research activities in support to a European operational monitoring system for fossil CO2 emissionsScope:q Develop a European operational monitoring system for fossil fuel CO2 emissionsq Address all components of the system, e.g., atmospheric transport models, re-analysis, data
assimilation techniques, bottom-up estimation, in-situ networks, ancillary measurements needed to address the attribution of CO2 emissions (dicrimination with biomas sources, …)
ImpactFulfil the technological and scientific needs for the integration of this European end-to-end operational systemq Improve on the performance and resolutions of regional scale atmospheric transport models; q Make a significant contribution helping countries in evaluating the effectiveness of their CO2 emission
reduction strategiesq Support the optimal planning of networks of in-situ measurements q Identify the functionalities of a fossil CO2 decision support system
- 49 -
CALL Earth Observation
RIA
€ 9
DT-SPACE-09-BIZ-2019: Space hubs (support to start-ups)
Increase the number of initiatives for start-ups, scale-ups and entrepreneurs in the space downstream and upstream sectors (such as Incubators, Accelerators, Hackathons or AppCamps)
Impactq Creation of new start-ups and applications through awareness raising activities and initiatives to
facilitate technology transfer;q Growth of the number of start-ups in Europe
- 50 -
CALL Earth Observation
CSA
€ 1
17:17 - 51 -
Space Technologies, Science & Exploration
LC-SPACE-14-TEC-2018-2019: Earth observation technologiesDemonstrate new technologies, systems and sub-systems for Earth Observation (EO)
Scope:a) Very high resolution optical EO for LEO satellites and/or high resolution optical EO for GEO/HEO
satellitesb) Competitive remote sensing instruments & space systems: next generation systems in the optical and
radio frequency domains (active/passive), advanced system solutions (including small satellites possibly in convoy with existing space assets), super- and hyperspectral imaging instruments, low cost high resolution telescopes and radar imaging systems, …
c) Disruptive technologies for remote sensing, innovative LiDAR (Light Detection And Ranging) and radar instruments, super-spectral and hyperspectral payloads, high quantum efficiency photo detectors , …
d) On-board data processinge) Advanced SAR/Radar technologiesDemonstrate significative improvementCommercial assessment of the supply chain technology asked
- 52 -
CALL Earth Observation
RIA
€ 2 - 3
SPACE-10-TEC-2018-2020: Technologies for European non-dependence and competitivenessReduce the dependence on critical technologies and capabilities from outside Europe for future space applications
Group B to be addressed in 2019 : • JTF-2018/20-2 – ASICS for mixed signal processing [U11]• JTF-2018/20-11 – Design and qualification of µcontroller for space applications [N52]• JTF-2018/20-12 – Design and prototype of nvRAM for SPACE with serial interface ((quad)-SPI) [N53]• JTF-2018/20-21 – High density assembly capabilities and PCBs [U17]• JTF-2018/20-28 – Photonics components [U15]• JTF-2018/20-31 – Advanced laser crystals for high power space applications [N63
Commercial assessment of the supply chain technology asked
- 53 -
CALL Earth Observation
RIA
€ 1 - 3
SPACE-13-TEC-2019: SRC – In-Space electrical propulsion and station keepingEnable faster maturation of promising disruptive electric propulsion technology
Scope:Proposals shall cover one of the following:
q Thruster concepts or technologies for disruptive electric propulsion systems such as Helicon Plasma Thrusters (HPT), Electron Cyclotron Resonance plasma thrusters (ECR), Magneto Plasma Dynamicthrusters (MPD), Pulsed Plasma Thrusters (PPT), micro-propulsion electric thrusters, or any otherinnovative concepts
q Transversal concepts and technologies : power condition electronics, direct drive, magnetic nozzles, alternative propellants, testing techniques, materials.
Either :• Breakthrough technologies - TRL (<4) ➔• Promising technologies TRL (≥4)
Market analysis and an application impact analysis asked
- 54 -
CALL Earth Observation
RIA
€ 1
€ 1 - 2
SPACE-17-TEC-2019: Access to space
Proposals shall cover one of the following:a) Innovative concepts for low cost launch system and services for mini-, micro-, nano-satellites and
cubesats. Coherence sought & complementarity with on-going ESA initiatives. b) Launch system advanced manufacturing (e.g. tooling and machines) and modern infrastructures
(including ground infrastructures for low cost European launch sites for mini, micro nano satellite launch system)Integrated supply chain, efficiency. Focus on digitalisation – numeric know-how capture & share
Impactq Contribution to the maturing of technologies to Launch Systems/services for small satellites in
dedicated orbits and with a strong focus on cost reduction and launch rate flexibility;q Supply chain efficiency applied to space launch manufacturing, integration and operations thanks to
research and innovation data exchange architecture
- 55 -
CALL Earth Observation
RIA
€ 2 - 3
SPACE-18-TEC-2019-2020: In-orbit validation/demonstration – Mission design, integration and implementationIOD/IOV needed to test/ de-risk innovations and bring them to market
Develop all the necessary tasks related to (future) IOD/IOV experiments :q System studies, at ground and space level, including compatibility with available launchers;
q Input to the launch mission analysis performed by the launch service provider;
q Selection, assembly, integration and testing of the spacecraft(s) and related ground segment;
q Management of interfaces with and between the different IOD/IOV experiments, between the satellite and the launcher and between the satellite and the ground segment;
q Preparation of the spacecraft(s) for the flight;
q In-orbit testing and operations including the provision of experiments data.
Selected project will interface with ESA and the European Launch Service Provider
- 56 -
CALL Earth Observation
RIA
€ 20
SU-SPACE-22-SEC-2019: Space Weather
Space weather : can severely impact the performance of critical space and ground infrastructure disrupting operations and communications in multiple sectors of society
Current space weather services are not capable of forecasting events over several days➔ goal is to pave the way for forecasting horizons for space weather events in the order of tens of hours
or days& identify potential indicators of extreme events potentially through the joint analysis of interdisciplinary data
Impact:q Improved scientific understanding of the origin and evolution of space weather phenomena;
q New models and forecasting techniques
q Inventory of potential early indicators of extreme space weather events
- 57 -
CALL Earth Observation
RIA
€ 2 - 3
Méthodologie NCP
17:17 - 58 -
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ActiverInfoday
Contacter le NCPActiver votre réseau de partenairesParticiper aux événements de networking
Méthodologie/ Stratégiede participation
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Informationappel
Identification TopicRôle/ Chaine R&D Consortium Rédaction
trouver coordinateur 1er plan
1° Votre réseau2° Bases données projets EU3° Brokerage Events & Infodays4° Recherches de partenaireshttp://www.nmpteam.eu/ …
Diffuser son profil
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Topic Identifié
Données administratives
Contribution concrète au projet / Valeur ajoutée
Fiche du NCP Wallonie« One-page expertise description »
28/09/2017
Trouver des projets financés / partenaires
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https://cordis.europa.eu/projects/home_en.html
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Key Players Space
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COPERNICUS GALILEO Space TechnologiesInstitut Royal des sciences naturelles de Belgique
Deutsches Zentrum fuer Luft und Raumfahrt
ASTRIUM
Meteo France ONERA Thales Alenia Space FranceEuropean Center for Medium-Range weather forecast
Ecole Polytechnique de Lausanne
GMV Aerospace & Defense
HCMR Fraunhofer Muenchen Indra SistemasIFREMER M3 Systems FraunhoferACRI Centre technologic de
telecommunicacions de Catalunya
Tecnalia
Planetek Italia Technische UniversitatBraunschweig
Consiglio Nazionale dellaRicerce
Spacetech partner TeleConsult Austria CNRSBrockmann Consult University of Nottingham CNES
INFODAYS et BROKERAGE EVENTS
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Prochains ➔ automne 2018
Précédents q European Space Week in Talinn (3-9 Nov 2017)q Cosmos Space Week in Rome (21-23 Nov 2017)q Horizon 2020 Brokerage Event - Paris 2018 (27 April 2018)
Infos/ partner searches :q https://www.transport-ncps.net/q http://ncp-space.net/
Partner searches
Merci de votre attention
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