The 5G Automotive Association (5GAA) is comprised of the Executive Committee, the Board, the General Assembly, and the Working Groups. Together, the different bodies ensure the successful running and operations of the association.

The 5G Automotive Association (5GAA) is a global, cross-industry organisation of companies from the automotive, technology, and telecommunications industries (ICT), working together to develop end-to-end solutions for future mobility and transportation services. Created in September 2016, 5GAA has rapidly expanded to include key players with a global footprint in the automotive, technology and telecommunications industries. This includes automotive manufacturers, tier-1 suppliers, chipset/communication system providers, mobile operators and infrastructure vendors.

5GAA was created to connect the telecom industry and vehicle manufacturers to develop end-to-end solutions for future mobility and transportation services.

Mission

5GAA unites the automotive, telecommunication, and technology industries globally, turning collaboration into real-world, scalable connectivity solutions that deliver smart, safe, secure, and efficient mobility for all road users, now and in the future.

A visionary roadmap

What we do

5GAA is addressing today’s mobility key challenges. With C-V2X technology, 5GAA will revolutionise the mobility ecosystem and the way drivers interact with the world. 5GAA’s ambition is to improve the overall transportation industry to make it safer, greener and more efficient for vehicles, road users and the surrounding infrastructure.

Smarter

Sustainable

Safer

5GAA has defined 4 strategic pillars designing the short and long term goals in very diverse domains contributing to the same ambition: Connected Mobility.

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On Tuesday 28 September 2021 the 5G Automotive Association (5GAA) hosted an online conference on “5G: Connected Mobility in the digital age” to discuss the ongoing challenges and opportunities fostered by the digitalization of road transport in Europe.  

The event brought together EU representatives, local and national authorities, and the connected automotive ecosystem to the heart of Europe to advance the dialogue on the latest state-of-play and capabilities of Cellular-Vehicle-to-Everything (C-V2X), the EU regulatory framework and the importance of the 5G roll-out, and the crucial role of C-V2X technology to increase traffic safety and efficiency and achieve lower emissions globally. 

The Association had the pleasure to have European Commissioner for Transport Adina-Ioana Vălean open the conference and address the attendees. “Our Sustainable and Smart Mobility Strategy sets out milestones for the transformation of our transport system – and Cooperative, Connected, and Automated Mobility will play a key role: by 2030, we expect automation to be deployed at a large scale” stated Commissioner Vălean.

The event welcomed high-level representatives such as Daniel Mes, Cabinet of Executive Vice-President for the European Green Deal Frans Timmermans, Charlotte Nørlund-Matthiessen, Cabinet of Commissioner for Transport Adina-Ioana Vălean, Member of European Parliament Henna Virkkunen, Peter Stuckmann, DG CONNECT Head of Unit Future Connectivity Systems, the European Cyclists’ Federation (Jill Warren, Chief Executive Office), Spain’s Directorate-General for Traffic (Ana Isabel Blanco Bergareche, Associated Deputy Director), the City of Turin (Nicola Farronato, Head of Innovation) and the Swedish Transport Administration (Hamid Zarghampour, Chief Strategist Connected and Automated Transports). It also witnessed a strong ecosystem presence, with speakers from 5GAA members BMW, Stellantis, Volvo Cars, Ford, HERE Technologies, Telefonica, TIM and Huawei.

Rewatch the event in the videos below.

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Read the White Paper

The 5G Automotive Association (5GAA) is proud to be again a partner of the European Telecommunications Standard Institute (ETSI) in the second C-V2X-only Plugtests™ event, to take place remotely from 20 to 31 July 2020. This interoperability test will be held with the support of the European Commission and the European Free Trade Association (EFTA).

Building on the extremely positive results of the interoperability events of 2019 in Klettwitz and Malaga, this second edition of the C-V2X Plugtests™ will focus on testing ITS Security features (EU ITS Security Policy and EU ITS Certificate Policy) in order to support the C-V2X ecosystem in the C-ITS deployment according to the highest security standards, crucial for the creation of a single European trust domain. The interoperability test specification for ITS security ETSI TS 103 600 v1.1.1 will represent the basis of the test plan for the testing event.

Registrations are open until 12 June. For any further information, please consult the official event page.

In light of on-going discussions on a legal framework for the European C-ITS deployment, a minimum set of specifications and configurations is needed for existing ITS standards ensuring the interoperability of C-ITS service among ITS stations using different communication technologies and systems, e.g. short-range and long-range radio communications.

While C-V2X standards are already finalised for 3GPP Rel. 14 and 5GAA published White Paper on C-V2X Use Cases: Methodology, Examples and Service Level Requirements, there are still many options on how to configure and establish parameters for C-V2X systems. In order to provide a common standard interpretation, corresponding system profiles are needed, which outline the basic system settings and environments

In Europe, Basic System Profiles (BSPs) have been developed by the Car-2-Car Communication Consortium (C2C-CC) and the EU-funded C-ROADS Platform project, assuming ITS-G5 with IEEE 802.11p as radio access technology for V2V and V2I communication. Though many aspects of the existing BSPs could be reused, there are some modifications needed for C-V2X. In addition, there would be extensions required in order to accommodate alternative communication links like V2P, V2N, and V2C.

5G Automotive Association makes publicly available the following  C-ITS Communication System Profiles:

• Technical Specification C-ITS Communication System Profile Using Cellular Uu Interface
• Initial C-V2X System Profile (ICSP) – Amendments to C2C-CC Basic System Profile
• Initial C-V2X System Profile (ICSP) – Amendments to C-ROADS Roadside System Profile

Turin, 14 November 2019 – Smart mobility technology is a reality today, with ‘Cellular Vehicle-to-Everything’ (C-V2X) allowing connected vehicles to communicate with the cloud, directly with each other and their surroundings. Deployment plans are primarily sustained by the global trend in the automotive industry to adopt 4G LTE cellular technology, followed by the emerging 5G high-speed low latency communications. Beyond infotainment, C-V2X will capitalize on vehicular and smartphone connectivity to contribute to better safety, less congestion and reduced emissions. 

During a live demo event in Turin, the 5G Automotive Association (5GAA) showcased ready to deploy use cases in the streets of the city and a sneak preview of what the future has in store on the renowned Lingotto rooftop test track.  

Prominent members and partners of the 5GAA including Audi, Continental, Ericsson, Fiat Chrysler Automobiles, Harman Samsung, Marelli, Pirelli, Qualcomm, TIM and Vodafone demonstrated the current state of C-V2X and the road to future, Vehicle-to-Vehicle (V2V), Vehicle-to-Infrastructure (V2I), and Vehicle-to-Network (V2N) applications based on 4G LTE and 5G. 

“Connected mobility is a market reality.” says 5GAA Chief Technology Officer, Dr. Maxime Flament. “The use cases demonstrated in the streets of Turin are planned for deployment with a huge industry momentum based on the evolution path to 5G capabilities.”  

Using both direct short-range communications and mobile networks, the open-road demonstrations showcased the extensive capabilities of today’s C-V2X technology, ready for deployment. To name a few: 

• Protecting vulnerable road users, for instance, by alerting drivers about a pedestrian at a crossing using LTE-connected infrastructure. 
• Smoothing traffic by allowing public authorities and road operators to provide real-time warnings to drivers in urban environments concerning roadworks or speed limits, via the network. 
• Preventing incidents at dangerous intersections or in the event of unexpected braking, thanks to C-V2X direct-short range communications between vehicles. 

The track demonstrations at Lingotto underlined the enhanced safety benefits that can be expected thanks to the versatility of 5G and the wide range of services it enables. To name a few: 

• Vehicles will geo-tag dangerous areas for the following cars or provide ‘see-through’ functions to avoid dangerous overtaking. 
• Pedestrians will be detected directly via their smartphones and surrounding vehicles will be warned. 
• In case of accidents, emergency services will be able to visualize the situation live using on-board cameras of surrounding vehicles, improving response times and providing emergency responders situational awareness prior to arriving at the crash scene. 

Furthermore, Intel showcased an “In Vehicle Entertainment” demo at the Museum, in collaboration with Marelli, TerraNet and Equinix, showing how Multi-Access Edge Computing (MEC) can support immersive high-definition (HD) entertainment for all occupants of a moving vehicle, including video streaming, gaming, virtual reality (VR), office work, online education, advertisement. 

A short summary on each of the 5GAA C-V2X use cases, demonstrated today in Turin 

Demo 1 “Vulnerable Road Users”: open road demos on safety  

In this trial – which is part of Torino Smart Roads Initiative patronized by the Municipality of Turin – TIM, Links Foundation and Luxoft showed how the communication between the various actors moving along the roads can help in detecting potentially dangerous situations. The goal of the demos was to demonstrate how the 5G mobile network facilitates the protection of Vulnerable Road Users: pedestrians (“Presence of a pedestrian on a crosswalk”) and cyclists (“Presence of a connected bike on the road”). In the case of a pedestrian approaching a crosswalk, a Roadside Unit connected to the mobile network, equipped with a camera able to detect the event, sent a warning message to the nearby connected vehicles (I2V communication). In the case of a connected bike and a connected vehicle that are approaching each other, the two vehicles received a warning message about their presence when a risk of collision is detected.

Demo 2 “Urban Georeferenced Alerting” in open roads  

TIM, FCA, Links Foundation, City of Turin with 5T, and Politecnico di Torino showed how the Local Traffic Authority in Turin intends to notify drivers in real time of possible dangers and special situations on the road (traffic jam, road works warning, dynamic speed limit, etc.). A standard geo-referenced warning message was dispatched to a TIM AMQP broker” at the edge of the 5G mobile network and only the involved vehicles received the geo-localized message from the AMQP Broker using the TIM 5G Network. The warning was read and displayed in an FCA vehicle through the on-board HMI and can for instance notify the driver of upcoming speed reduction. The aim of the trial was to demonstrate how the TIM 5G Network is suitable for realizing smart roads services for connected cars. The solution is compliant with the standards so it can be applied in other locations covered with mobile networks. 

Demo 3 Intersection Movement Assist (IMA), Forward collision Warning (FCW)  

FCA and Harman Samsung showcased two Vehicle to Vehicle (V2V) demos, by integrating C-V2X direct-short range communication into Maserati Levante and Quattroporte. The vehicles, through a direct radio link (network-less radio link), anonymously communicated basic information such as their position and related direction. 

The Forward Collision Warning (FCW), detected possible frontal collision and warned the driver accordingly. The Intersection Movement Assist (IMA), assisted the driver at the cross junctions to avoid a possible lateral collision with an oncoming vehicle. 

Demo 4 Emergency Electronic Brake Light (EEBL), Stationary Vehicle Warning (SVW)  

FCA, Continental, and Qualcomm demonstrated fast and reliable information exchange between vehicles in emergency situations. The two demos are based on C-V2X direct-short range technology, enabling Vehicle-to-Vehicle (V2V) communication between two Jeep Renegade. There were two portions to this demo: 

• “Stationary Vehicle Warning” (SVW): when the hazard lights are activated, the application broadcasted a message to all nearby vehicles so that approaching vehicles could be informed even if the hazard was not visible.  
• “Emergency Electronic Brake Light warning” (EEBL): in the event of a sudden braking, the application broadcasted a message to following vehicles, such that approaching vehicles were notified of the potentially dangerous situation. 

Demo 5 See-through 

Vodafone, FCA, Vodafone Automotive, Marelli and Altran revealed the ‘See Through’ that uses C-V2X long-range cellular network communication to exchange streamed video in real time between vehicles, extending the driver’s visual range under obstructed visibility scenarios and to prevent accidents, especially those that may occur in an overtaking phase. The two involved Jeep Renegades vehicles were equipped with a connectivity solution (Marelli) and high frame-rate cameras (Marelli Motorsport) to detect the road lanes.  

A real time tracking system and a space mapping algorithm of the vehicles, specifically developed by Vodafone Automotive, allowed Vodafone’s Multi-access Edge Computing (MEC) to dynamically manage and route the video flows on the basis of the vehicles’ relative positions and to ensure minimal end-to-end latency in the interest of drivers’ safety. Vodafone 5G ultra-low latency and high reliability were paramount to ensure the flow and synchrony of the real-time video exchange between vehicles, also under high traffic and cell saturation conditions. 

Demo 6 World-first 5G-enhanced ADAS services 

Audi, Ericsson, Italdesign, KTH, Pirelli, Qualcomm, TIM and Tobii showed how smart cars, commercial 5G smartphones and 5G networks jointly improve comfort, safety and efficiency. This unique collaboration combined the power of eye-tracking glasses, intelligent tires, in-vehicle augmented reality and 5G phones to work together over a live 5G network. With its high capacity and low latency, cellular 5G connectivity is ready to enable instantaneous cooperation between vehicles, the IoT ecosystem and more advanced driver assistance services. The live demonstrations at the Turin Lingotto test track were based on TIM’s commercial 5G network delivered in Turin in partnership with Ericsson. Audi cars, equipped with Pirelli Cyber Tyre, and embedded 5G modems provided by Qualcomm and available 5G smartphones were utilized to enhance pedestrian’s safety. 

About 5GAA 

The 5G Automotive Association (5GAA) is a global, cross-industry organisation of over 130 members comprised of leading global automakers, Tier-1 suppliers, mobile operators, semiconductor companies and test equipment vendors. It works together to develop end-to-end solutions for future mobility and transport services. 5GAA is committed to helping define and develop the next generation of connected mobility, automated vehicle and intelligent transport solutions based on C-V2X. 

Learn more on the 5GAA website and follow us on Twitter and LinkedIn. 

Media Contacts

5GAA Marketing & Communications
Email: marcom@5gaa.org 

PDF Document

Official pictures: Conference – Demonstrations

Following the first session held in Brussels on 12-13 February 2019, 5GAA returned to the second 5G Vertical User Workshop, which was in Rome on 9-10 July 2019. This initiative, launched by 3GPP Market Representative Partners (5GAA, 5G-IA, 5G-ACIA and PSCE) was organised as a collaborative event for strategic dialogue between vertical industries (technology, automotive and transport, health and public safety ) and 3GPP by exchanging on future needs and upcoming cellular standard developments.

5G networks are intended to bring a new innovative ecosystem, where actors from the vertical industries will be involved alongside the telecom operators, manufacturers, SMEs and research institutes. There is an increasing need to involve this wider range of industries to optimally capture end-user requirements and contribute to the 3GPP standardisation process. The working groups of 3GPP operate on a bottom-up basis focusing on partners contributions. As such, 3GPP notably benefits from further developing the role and usefulness of 5G vertical industries as Market Representation Partners.

The agenda for the 2nd 5G Vertical Users Workshop can be found here. The Workshop focused on 5G vertical technical viewpoints, common requirements and common interests with lively interactive discussions. 5GAA members Huawei, Nokia and Orange supported the workshop. The 5GAA CTO, Maxime Flament, had seized the opportunity to address:

• The 5GAA vision for 3GPP rel-17 as part of C-V2X and intelligent transport systems (available here)
• Predictive QoS, an innovative mechanism to provide in-advance QoS notifications from the network to the V2X application (available here)

5GAA enthusiastically supports the initiative and to enhance collaboration with partners such as 5G-IA, 5G-ACIA and PSCE.

Recently, the 5G Automotive Association (5GAA) filed a petition for waiver with the Federal Communications Commission of the United States requesting that C-V2X be allowed to operate in the upper 20 MHz (5905 MHz – 5925 MHz) of the US ITS band.

In support of this petition, 5GAA member companies have performed a series of tests in an attempt to address anticipated technical questions related to the favourable implementation of this petition. The report describes the test procedures and results that were undertaken to support the 5GAA C-V2X FCC petition for waiver in the 5.9 GHz band.

The report presents results of testing C-V2X in 20-MHz wide CH183 – the channel that has been recently proposed for C-V2X deployment in the ITS band and is referred to as basic C-V2X Channel and it allows for V2V and V2X messages such as basic safety message (BSM), signal phase and timing (SPaT), signal request message (SRM), signal status message (SSM), and others covered by the Road Safety Message under development in SAE standards. The upper part of the ITS band was chosen to minimize impact to DSRC channels, especially CH172.

The viability of C-V2X in 10 MHz has been demonstrated in a preceding report in which C-V2X has been shown to outperform DSRC in terms of reliability, resilience to out-of-band interference and range. This report extends these results by showing that a BSM message sent in 20‑MHz CH183 has the same reliability as previously shown in 10-MHz CH184.

Both lab and field data included in the report demonstrate consistent results:

• C-V2X communication in 20-MHz CH183 has the same reliability performance (Packet Reception Ratio vs. distance) as the identical BSM-like message transmission in 10-MHz CH184.
• Impact of C-V2X high load transmissions in CH183 on DSRC basic safety transmissions in CH172 is negligible up to a 1.4-km range in LOS conditions
• Impact of C-V2X high load transmissions in CH183 on V2I and I2V transmissions in CH178 is negligible up to a 1.4‑km range in LOS conditions
• Impact of C-V2X high load transmissions in CH183 on V2I and I2V transmissions in CH180 is negligible up to 1 km in LOS Conditions

Read the full report here.

Photos of the workshop can be found here. Click here to see the photos of the live demonstration. 

Berlin, 23 May 2019 – Smart mobility technology, which we have been developing over the years, is now a reality. ‘Cellular Vehicle-to-Everything’ (C-V2X) allows vehicles to both communicate with the cloud and also directly with each other and their surroundings. Thanks to 4G LTE cellular technology, as well as the emerging 5G generation of high speed and low latency communications, traffic will be optimized, and emissions will be reduced. Emergency services will navigate smoothly and road safety for everyone, including vulnerable road users, will dramatically enhance.

At a live demo event in Berlin, the 5G Automotive Association (5GAA) presented a deep-dive into a smarter and safer mobility, giving a sneak peek of the technologies ready to be deployed. Prominent 5GAA members including BMW Group, Daimler, Deutsche Telekom, Fraunhofer Institutes FOKUS and ESK, Ford, Huawei, Jaguar Land Rover, Nokia, Qualcomm and Vodafone, demonstrated C-V2X Vehicle-to-Vehicle (V2V), Vehicle-to-Infrastructure (V2I) and Vehicle-to-Network (V2N) applications.

“Connected mobility standards are no longer a vision for the future,” says Maxime Flament, Chief Technology Officer at 5GAA. “The solutions on show are ready to be deployed today and have huge industry momentum based on the forthcoming 5G capabilities. C-V2X technology is a key foundation for a safe and sound driving environment for pedestrians, bicyclists, motorcyclists, cars and commercial heavy trucks. Global field testing is already in its very final stages and the first solutions are now commercially available from multiple suppliers.”
Using both direct short-range communications and mobile networks offers complementary capabilities as showcased in the demos, which involve tele-operated driving and the provision of emergency traffic information between vehicles using multi-access edge computing (MEC) functionality. All the demos use technology that is ready to be deployed.

A short summary on the 5GAA C-V2X use cases, showcased today at Berlin:

1. A. Traffic Management Solutions: Signal Phase and Timing (SPaT) and Red-Light Violation Warning (RLVW) to Vehicle
Waiting at the red light is not only time consuming, but idling, braking and accelerating release more pollutants. The communication between the traffic signal and vehicle is important to improve traffic flow, thus increasing road safety by preventing accidents. During the demo drive, a BMW Group vehicle equipped with a Qualcomm onboard unit running the Savari ITS software stack and the V2X use cases, communicates with a SWARCO traffic signal, showing C-V2X readiness across multiple vendors.
The use case enables the driver to monitor the upcoming traffic light. The center display of the vehicle shows the current signal phase and how long it will remain. In the Red Light Violation Warning (RLVW) use case, the application in the vehicle uses its speed and acceleration profile, along with the signal timing and geometry information from the traffic signal. If the driver is likely to run a red light he/she receives a warning in the vehicle.
B. Traffic Management Solutions: Emergency Electronic Brake light (EEBL)/ Roadworks warning (RWW)
C-V2X provides the driver with information so that he or she can adapt to the upcoming traffic situation in advance. Fraunhofer FOKUS, supported by Daimler, demonstrate an Emergency Electronic Brake Light Warning: Two vehicles equipped with Huawei onboard units are accelerating, and the car ahead brakes hard. The second car instantly receives a warning, demonstrating the advantage of the low-latency C-V2X communication. Furthermore, a Huawei roadside unit communicates ongoing roadwork via C-V2X to the vehicle. Visitors experience both use cases in the car viewing the warnings on the central display.

2. Real Time Emergency Alerts: Vehicle-to-Network and Network-to-Vehicle services
Vodafone Germany and Ford show connected vehicle technology (V2X) that could alert drivers to an accident ahead, moments after it has happened (via eCall Plus). Furthermore, the system provides early warning that emergency vehicles are approaching – and which side of the road other vehicles should move towards to avoid being an obstruction. Experts believe that survival rates for road accident victims can be improved by as much as 40% if they receive treatment just four minutes more quickly.

3. Live data capture and transmission: Expanded network/Vehicle-to-Network capacities via MEC
An ultra-fast, reliable and precise dissemination of safety-relevant information can save lives. Continental, Deutsche Telekom, Fraunhofer ESK and Nokia demonstrate how information is delivered to vehicles almost real-time via a mobile network, utilizing Multi-Access Edge Computing (MEC) technology. All data is processed at the edge of the mobile network to reduce transmission time (latency). As a result, event-related data such as emergency warnings as well as high-definition map data are transmitted in milliseconds, improving driving safety on the path to fully automated driving.

4. Combined Network and Direct solution enables the pinnacle of C-V2X technology
Vodafone Group, Huawei and Jaguar Land Rover demonstrate safety critical use cases by combining different communication modes (short direct via PC5 and longer-range network-based via Uu). The provision of a two-stage warning enables vehicles to be made aware of other vehicles approaching the same junction much earlier and allowing action to taken sooner to avoid a crash. Also, the number of road accidents because of unsafe lane changes and blind spots are significant. Using C-V2X technology helps automotive OEMs keeping the cost of implementing such warnings down by not having to install additional ‘one-off’ radio access systems for such warnings. The demos showcased the value and readiness of C-V2X and its ability to seamlessly combine both long range and short-range direct and longer-range network communication links. Specifically, it was shown that at a T-junction – a key site for accidents – connected cars benefit from longer range cellular network communication to deliver safety-related information beyond what alone can be delivered from short-range technology.

5. Remote-operated driving
Remote-Operated Driving (ROD) smooths the path to automated vehicles, anticipating situations in which remote human operator can intervene with the driving of the vehicle. ROD is enabled by low latency communication equipment e.g. by Huawei to deliver instructions or inputs to the vehicle to help it navigate challenging scenarios. Fraunhofer Institute FOKUS, supported by Daimler, showcase the reliability ROD enables already today.

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Contact

Marketing and Communications Team
Email: marcom@5gaa.org