european gnss supervisory authority galileo: application domains and research activities stefano...
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Galileo: Application domains andresearch activities
Stefano Scarda
European GNSS Supervisory Authority
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ty Galileo Overall Schedule
Development and Validation Deployment Operations and Maintenance
1.2 Billion €Public
220 Million € per yearPrivate
2 Test Satellite & 4 Operational Satellites
Ground Infrastructure
2.2 Billion €1/3 Public, 2/3 Private
26 Satellites
Ground Infrastructure
Joint Undertaking GALILEO Concessionaire / Supervisory AuthorityEC/ESA
Routine Operations and Replenishment
48 months 24 months 20 years
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ty The Galileo differentiators
Under a regulated entity (Galileo Supervisory Autority) To preserve the public interests
In a commercial PPP scheme To develop the GNSS market and implement contractual schemes
Technical advatage High performance – possible signal encryption and authentication
Integrity To monitor the system performance –to verify GOC contractual obligations
Transparency, auditability and record of past performance To provide service guarantee and quality of service
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ty GALILEO application overview
Safety of Life Mass Market Professional Aviation Rail Maritime Inland waterways Ambulance Police / Fire Search and Rescue Personal Protection Traffic surveillance Dangerous goods trans. ADAS
Personal communication and navigation
Cars / motorcycles Trucks & buses Light Commercial
Vehicles Personal outdoor
recreation Others…
Oil and Gas Mining Timing Environment Fleet Management Asset Management Geodesy Meteorological
forecasting Land Survey / GIS Precision survey Precision Agriculture Fisheries / EEZ Vehicle control and
robotics Construction / Civil
Engineering Space
Liability Critical
Road tolling and charging (city access) Insurance “pay per use” Surveys for public interest (cadastre, agriculture parcels, energy distribution networks, environment protection) Time-stamping for e-commerce transactions Dangerous goods and high valuable goods transportation Support to Customs, Traceability and quality of food (Protected Geographical Indication, cold chain) Tracking and tracing for regulated activities
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ty Overall value-added chain
USER ComponentsComponentsReceiversReceiversNavigationSystems
NavigationSystemsPlatformPlatform
ServiceProviders
ServiceProviders
CommunicationProviders
CommunicationProviders
InformationContents
InformationContents
e.g. car, plane
or mobilephone
e.g. avionics,
In-car systems
Hand-held or for
integration
e.g. chipsets, antennas
e.g. maps, traffic
informations
e.g. mobile telephony or
satellite communications
e.g. ATM, fleet management, road charging
services
SERVICES
PRODUCTS
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tyOverall budget for the development phase
The development of the 4 first Satellites and Ground segment (i.e. infrastructure) Budget: 1’500 M€
The development of the User segment Budget: 110 M€ at EU level (6thFP) + 7thFP
+ national budgets and regional budgets
The development of the USER SEGMENT is of paramount importance for the success of Galileo:
GOCChipset
Antennas
Product
Equipment
Value added
services
Signal operator Component segmentSystem integration
segmentService provider
segment
1 B€ ~30 B€Revenues: 0.4 B€ ~50 B€
Annual figures for 2015
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EC7th FP
2003 2004 2005 2006 2007 2008
1st Call activities (18.9 M€)
2nd Call activities (66.9 M€)* preparation
preparation
preparation
GALILEO ConcessionaireConcession process
3rd Callactivities (10 M€)
calls
Galileo Research and Development activities
FP6 Overall Plan
* + additional budget 13.7M€
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tyFP6 Activities (I)
Applications Applications and Services development based on EGNOS integrity in the 1st
call Development of GNSS (EGNOS+Galileo) services and applications in
several major user communities:• All major transport domains• LBS• Scientific and Professional domains• Agriculture• …
Mission Standardisation Activities complementing GalileoSat:
• Time and Geodesy Service Provision• SAR MEOLUT development
Activities related to frequency Definition and evolution of the mission
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Receivers Development of tools and first receiver prototype Development of commercially oriented receivers through parallel
contracts• Mass market receiver• Professional receiver• Safety of Life receiver
Local Elements Development of the LE Building Blocks Development of “application and service oriented” local elements in
the 2nd call (in line with the different user communities requirements)
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tyCurrent Galileo User Segment R&D activities
GJU has launched more than 60 projects (including SMEs) dedicated to the development of the User Segment for an overall budget of 170 M€ (110M€ financed by GJU)
More than 300 companies (including a large number of SME’s) are now involved in the Galileo R&D activities financed by the GJU
280 equivalent full-time persons are continuously working in these projects
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tyInnovation by SMEs
Galileo 2nd call have provided two platforms for SME involvement Includes dedicated, sharply focused activities of smaller scope
specifically targeted to SMEs Special attention to the involvement of SMEs in the other R&D
activities
Provides activity context for innovation Receivers, local elements, applications, prospective research
Addresses technology development, demonstration and prospective studies
Encourages technology transfer, innovative services and transnational co-operation and networking
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tyIntroduction to 7th FP - Galileo
Sub-theme 7.3 : Galileo
Four research & development activity areas have been identified by the European Commission and the EU Presidency for Galileo:
1. Exploiting the full potential
2. Preparing the tools and creating the appropriate environment
3. Adapting receivers to requirements and upgrading core technologies
4. Supporting infrastructure evolution
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ty I. Exploiting the Full Potential
1. Mass market applications
2. Professional applications
3. Scientific applications
4. Safety-of-life applications
5. Timing and synchronization applications
6. Governmental applications
7. New and innovative application and services
8. Search and Rescue applications
9. Regulated applications
Promoting growth in the use of the services Freight transport management applications including freight and hazardous materials transportations Exploitation of by-product services Demonstrating the benefits and efficiencies of satellite navigation
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ty II. Providing the Tools and Creating the Appropriate Environment
Research Areas
1. Tools
2. Certification and Standardization
Ensuring safe and secure use of services by all Member States, mainly through certification in key application domains Preparing and confirming the adequacy of services to new policies and legislation, including their implementation Addressing public regulated services according to the approved policy of access; Developing essential digital topology, cartography, geodesy data and systems for use in navigation applicationsaddressing safety and security needs and requirements
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ty III. Adapting Receivers to Requirements and Upgrading Core Technologies
Research Areas
1. Receivers
2. Customised user terminal
3. Local elements
Improving receiver performances Integrating low-power consumption and miniturisation technolgies Completing in-door navigation coverage Coupling with radio frequency identification devices Exploiting software receiver technology Combining with other functions as telecommunications Supporting key navigation ground-based infrastructure technology to ensure robustness and flexibility
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ty IV. Supporting Infrastructure Evolution
Research Areas
1. User need and mission evolution
2. Space and ground segment evolution
3. International and awareness
Preparing second generation system Adapting to evolving user demands and market forecasts Taking advantage of infrastructure internationalization to address global markets and developing world-wide standards
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tyDevelopment Principles of the 7th FP (1)
The 7th FP activities will undergo full coordination with ESA and other European R&D programmes to ensure complementarity and cross-fertilization
The final framework of the coordination of the R&D activities between ESA and the Supervisory Authority is yet to be established.
However, it is understood that ESA’s R&D programme will have the major objectives of ensuring The competiveness of the industry of its Member States in GNSS
space & ground technologies,
The technological autonomy of Europe to support the competitive evolution of the European GNSS infrastructure
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tyDevelopment Principles of the 7th FP (2)
The Supervisory Authority will focus in the 7th FPon downstream applications and receivers to foster the marketing
of the services and revenue generation of the European GNSS
the development, trial runs and new applications of the signals in space, to meet new user demand that will improve the business case,
the development and test of new technology of the next generation of the system to improve overall cost efficiency,
the development of the market, including support to innovation centres and networks, to certification of services and applications and to demonstrations.
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tyCore Objectives for the Galileo 7th FP
The 7th FP shall be used to drive and boost the exploration of new domains of
GNSS applications
to foster the European dimension of Galileo by ensuring a very broad participation of European industry in the innovation process
All Member States are invited to Motivate entrepreneurs and innovators to bid for the 7th FP;
Set up national programmes linked to the 7th FP, focused on local and regional applications or on differentiating factors;
Seek the support of the Supervisory Authority to overcome barriers of entry
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tyGalileo - 7th FP Schedule
Establishment of a Strategic Roadmap – end 2006
Coordination with ESA System Evolution Programme in 4Q06
Definition and selection of R&D activity items for the 1st Call in 4Q06
Preparation of Tender Package for the 1st Call in 1Q/2Q07 Release of 1st Call by end 2Q07/3Q07
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http://europa.eu.int/comm/dgs/energy_transport/galileo
Thank you for your attention.
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