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EUROPEAN GNSS ADOPTION OPPORTUNITIES IN TRANSPORT
WITH FOCUS ON RAIL Gian Gherardo Calini
European GNSS Agency
III Workshop “GNSS Technology Advances in a Multi-Constellation Framework” 22 January 2016
This presentation can be interpreted only together with the oral comments accompanying it
GNSS market trends and opportunities in transport
Focus on Rail market
Agenda
European GNSS programme status and GSA Market Development approach
2
26 January, 2016
Global Navigation Satellite Systems (GNSS)
Fully compatible with GPS
Open service free of charge and delivering dual frequencies (better performances)
Operational early services in 2016 12 satellites have been launched, till now:
Half of them were launched in 2015 First position fix made in March 2013 Recovery plan designed for 2 satellites
with no-nominal orbit
20 additional satellites already in production
Galileo is implemented in a step-wise approach
APV: Approach with Vertical Guidance RIMS: Ranging and Integrity Monitoring Station Note: theoretical coverage
…while EGNOS already provides value to European citizen
4
DOWNSTREAM VALUE CHAIN
Integrated approach: understanding the market, stimulating the demand, creating a competitive EU offer
E-GNSS USER ADOPTION
EU PUBLIC BENEFITS
MARKET SEGMENTS
5
Support EU
of Services, applications
and receivers
COMPETITIVE OFFER
Fundamental Elements
User Satisfaction
•Understand market and user needs and satisfaction
DEMAND & ADOPTION
Stimulate • EGNSS added value • Cooperate with receivers
and aps • Roadmaps with
stakeholders • Support EC policies
Bodies influencing the market
Navigation Signal
Providers
Chipset, receiver Devices Content &
Apps Service
providers
Road
LBS
Aviation
Rail
Maritime
Agriculture Surveying &
Mapping Timing &
Synchronization Governmental
European GNSS programme status and GSA Market Development approach
Focus on Rail market
Agenda
GNSS market trends and opportunities in transport
6
A 9 bln GNSS devices’ market by 2023, with mass adoption expected to happen everywhere
Source: GNSS Market Report - Issue 4, 2015
GNSS devices per capita: 2014 and 2023
1.1 0.8
1.4
0.4 0.2
0.5
2014
2.1 2.3
2.5
1.0 0.8
1.1
2023
> 2.52 - 2.51.5 - 21 - 1.50.5 - 1< 0.5N d
# of GNSS devices
per capita
7
As multi-constellation receivers become more common…
Source: GNSS Market Report - Issue 4, 2015
8
…new market trends in transport emerge…
• Increased pressure for emergency location sharing and safety-related applications drives the demand for telematics equipment, which serves as a platform for innovative applications
• Dedicated nomadic GNSS devices (PNDs) are becoming redundant with increasing use of smartphones and better affordability of In-Vehicle Systems
Road
Maritime
• Multi-constellation GNSS receivers at the centre of the proposed IMO e-navigation concept
• COSPAS-SARSAT enhancing the infrastructure with GNSS to reduce reaction time in emergency response
Aviation • Increasing usage of GNSS navigation, particularly for Performance Based
Navigation (PBN) • Growth in number of passengers (1-2% in recent years) • GNSS enabled Emergency Locator Transmitters (ELTs) are also being more
and more used in aviation
9
…leading to emerging applications able to support smart and efficient mobility
10
Description Application Example
Multimodal logistics
• Multimodal logistics transportation aims to create a seamless connectivity between different transport modes to maximize the impact of mass transport and enable sustainable mobility
[Road, Rail, Aviation, Maritime]
Other future transport
• New technologies have the potential to make our roads and transit systems safer, greener and more efficient. In the next future a number of ongoing ambitious projects will deliver their results (e.g. Hyperloop, Maglev trains, Urban pods, Skylon, etc.) [Road, Rail, Aviation, Maritime]
Smart Mobility • Smart Mobility uses ICT technologies to enhance quality
and performance of urban services, to reduce costs and resource consumption, and to engage more effectively and actively with its citizens. [Road, Rail, Maritime]
Connected Cars • Is a new vehicle feature that enables the exchange of
information with the Internet via specific interfaces, bringing the Internet into the automotive world
[Road]
Autonomous vehicles
• An autonomous vehicle is capable of sensing its environment and navigating without human control fulfilling the main transportation capabilities of a traditional car
[Road]
Key takeaways and watch outs in transport applications
11
KEY TAKEAWAYS WATCH OUT
• Development of autonomous driving will require better accuracy and reliability, possibly authentication
• Emergency services will bring another GNSS platform in the car
• Car connectivity will decrease the importance of reducing time to first fix, since assistance data will be provided via the network
• Public transportation and multimodal transport applications will use GNSS as main source of geolocation and will increasingly ask for indoor means for relative positioning
• In aviation EGNSS is becoming a key enabler for Communication, Navigation and Surveillance for all flight phases
• Accuracy would have to be improved to decimetre level to enable full autonomous driving
• Better continuity in challenging environments (e.g. urban canyons) would have to be ensured
• Demanding user integrity requirements in emerging safety-critical applications
• Galileo SAR inclusion in 2nd generation beacons
European GNSS programme status and GSA Market Development approach
Agenda
GNSS market trends and opportunities in transport
Focus on Rail market
12
Market trends in Rail
• GNSS penetration growing steadily, but used mainly for non safety of life purposes like asset management or passenger information systems
• Outside of Europe due to different safety requirements, GNSS is starting to penetrate also in train positioning for signaling (PTC, KLUB-U, proprietary solutions for private lines)
• Harmonization of railway signaling is the future trend (ERTMS, PTC,..) • CBA for GNSS based railway signaling is very positive and the industry needs further support
to find ways how to include E-GNSS into the technical specifications for signaling and train control
0%
20%
40%
60%
80%
100%
0
100
200
300
400
500
600
2013 2014 2015 2016 2017 2018 2019 2020 2021 2022 2023 2024 2025
Uni
tsTh
ousa
nds
Installed base of GNSS devices by region
EU28 North America Asia-PacificNon-EU28 Europe Middle East + Africa South America + CaribbeanGNSS penetration*
*: GNSS penetration is defined as installed base of GNSS devices relative to the installed base that would prevail if every addressable user was fully equipped
13
Where we want to be and how to get there
14
Where we want to be How to get there
EGNSS adopted as one of the key elements of the train command and
control solutions
Support UNISIG and Next Generation Train Control project in their effort to define
requirements
EGNSS adopted as a part of future evolutions of ERTMS and for train
positioning subsystem
Multi-constellation use of GNSS for multimodal logistics applications
Cooperate with railway associations and EC to foster the role of EGNSS in the evolutions of ERTMS standard and in the standardization
and certification of EGNOS receivers
Support the establishment of EGNSS enabled asset and cargo tracking solutions
Signalling Logistics
Low density lines
Combination of E-GNSS with sensors for precise train positioning for use in safety of life CCS applications or with conventional communication technologies for logistics applications.
Main lines
Improve safety and reduce the cost of signalling (requires very few or no line side components)
Reduce the number of physical balises and to improve the precision of the odometry
Improve availability of the supply chain visibility information to the LSP/LSC:
• Georeferenced cargo status monitoring
• Corridoring, Geofencing
Asset management Improve monitoring of the railway assets both for operators and infrastructure managers
Cargo monitoring
Passenger information systems
Improve precision and availability of positioning for on board PIS
15
EGNSS value proposition for different applications
Challenges for E-GNSS
Railway stakeholders need to define together with GNSS experts requirements in the difficult railway environment: UNISIG is working on defining the
requirements with the support of GSA Unlike in Aviation, railway is suffering
multipath effects and signal outages (cuttings, tunnels, urban canyons)
Minimum requirements on GNSS are difficult to define and require additional performance testing to be conducted by railway experts with the support of satellite industry
Results of FP7 projects addressing the issue of additional sensor integration (ex. odometer, eddy current sensor) are available for railway experts
16
GaLoROI - used EGNOS to provide integrity and increased positioning accuracy in combination with Eddy current sensors
Successful R&D projects laid foundation to opportunities for GNSS in rail signalling
SATLOC developed and demonstrated in Brasov (RO) innovative GNSS Safety of Life rail application for the train control, speed supervision, traffic control and traffic management of UIC-E lines (low density lines)
17
Objective verification of the suitability of EGNSS (including EGNOS and Galileo early services) for safety railway application for Low density lines Safe localization of the trains, based on E-GNSS will be defined and developed, leading the way for the harmonisation with the European ERTMS standard
R&D efforts continued in H2020…..
ERSAT project will leverage the achievements of FP7 and pave the way for inclusion of E-GNSS into future evolutions of ERTMS
18
Key pillar of RHINOS (Railway High Integrity Navigation Overlay System) project is the GNSS infrastructure realized for the aviation application with additional layers that aim to meet the railway safety standards, given the environmental constraints.
Upcoming project RHINOS aims to overcome the limitations of the railway environment
19
RHINOS will also contribute to the definition of a standard for the Railway High Integrity Navigation Overlay System leveraging on the EU-US Cooperation Agreement on ARAIM.
Next steps in R&D towards real applications
Collaboration and information exchange between projects in H2020 and Shift2Rail is a prerequisite to speed up the delivery of necessary R&D results leading to real applications
20
• Enable dedicated E-GNSS performance tests in frame of R&D supporting railway stakeholders to define the requirements – H2020 project STARS coordinated by UNIFE to be kicked off soon
• Support UNISIG and Next Generation Train Control project in their effort to define virtual balise by providing the necessary GNSS related knowledge and expertise
• Foster implementation of technical solution into ERTMS specifications for non safety relevant applications:
• Support the establishment of standardised, E-GNSS enabled asset and cargo tracking solutions for positioning of rail as a key player in the future European multimodal transport
STRATEGIC APPROACH SUPPORTED
BY H2020
THANK YOU
This presentation can be interpreted only together with the oral comment accompanying it
gian-gherardo.calini@gsa.europa.eu
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